1.    Superconductivity in the iron selenide K_xFe₂Se₂ (1≤x≤1.0), Physical Review B 82, 180520(2010) J.G.Guo，S.F.Jin，G.Wang，S.C.Wang, K.X.Zhu, T.T.Zhou, M.He, and X.L.Chen* 入选“Physical Review B“创刊50周年里程碑论文。

2.    Observation of superconductivity at 30~46 K in A_xFe₂Se₂ (A=Li,Na, Ba, Sr, Ca, Yb, and Eu), Scientific Reports 2(2012), 426. T.P. Ying, X.L. Chen*, G. Wang*, S.F. Jin, T.T. Zhou, X.F. Lai, H. Zhang, and W.Y. Wang

3.    Superconducting phases in potassium-intercalated ironselenides, Journal of the American Chemical Society 135 (2013), 2951-2954. T.P. Ying, X.L. Chen*, G. Wang*, S.F. Jin, X.F. Lai, T.T. Zhou, H. Zhang, S.J.Shen, and W.Y. Wang.

4.    Intercalating Anions between Terminated Anion Layers: Unusual Ionic S−Se Bonds and Hole-Doping Induced Superconductivity in S_0.24(NH₃)_0.26Fe₂Se₂, Journal of the American Chemical Society 141,13849 (2019) R.J. Sun, S.F. Jin*, L. Gu, Q.H. Zhang, Q.Z. Huang, T.P. Ying, Y. Peng, J. Deng, Z.P. Yin, X.L. Chen*

5.    Quasi-two-dimensional superconductivity from dimerization of atomically ordered AuTe₂Se_4/3 cubes, Nature Communications, 7. 781 (2017). J. G. Guo, X. Chen, X. Y. Jia, Q. H. Zhang, N. Liu, H. C. Lei, S. Y. Li, L. Gu, S. F. Jin, X. L. Chen*

6.    Superatomic-charge-density-wave in cluster-assembled Au6Te12Se8 superconductor, Journal of the American Chemical Society 144, 45, 20915–20922 (2022). X. Chen, G. Fei, Y.P. Song, T.P. Ying*, D.J. Huang, B.Y. Pan, X.F. Yang, K.Y. Chen, X.H. Zhan, J.J. Wang, H.Y. Gou, X. Chen, S.Y. Li, J.G. Cheng, X.B. Liu, H. Hosono, J.G. Guo*, X.L. Chen*

7.    Competition of superconductivity and charge density wave in selective oxidized CsV₃Sb₅ thin flakes, Physical Review Letters 127, 237001 (2021). Y. P. Song†, T. P. Ying†, X. Chen, X. Han, Y. Huang, X. X. Wu*, A. P. Schnyder, J.-G. Guo*, X. L. Chen*

8.    Stableoxoborate with edge-sharing BO₄ tetrahedra synthesized under ambient pressure, Angewandte Chemie International Edition 49 (2010) 4967-4970. S.F. Jin, G.M. Cai, W.Y. Wang, M. He, S.C. Wang, and X.L. Chen* 突破晶体结构领域公认的“鲍林规则”，首次在常压下发现硼氧四面体共棱连接的KZnB₃O₆晶体，且结构稳定至熔点。

9.    Defect-Induced Magnetism in Neutron Irradiated 6H SiC Single Crystals, Physical Review Letters 106, 087205 (2011). Y. Liu, G. Wang*, S.C. Wang, J.H. Yang, L. Chen, X.B. Qin, B. Song, B.Y.Wang, and X.L. Chen* 铁磁性新起源: 利用中子辐照在硅碳四面体中引入浓度可调的硅碳双空位缺陷，首次获得了具有室温铁磁性的碳化硅单晶材料，并给出了理论解释。

10.  4H-SiC: a new nonlinear material for midinfrared lasers, Laser & Photonics Reviews 7, 831–838 (2013). S.C. Wang, M.J. Zhan, G. Wang*, H.W. Xuan, W. Zhang, C.J. Liu, C.H. X, Y.Liu, Z.Y. Wei, and X.L. Chen* 首次将碳化硅用作中红外非线性光学晶体，分别基于4H碳化硅晶体的差频和光参量放大获得了中红外激光输出，碳化硅高的激光损伤阈值有望解决目前中红外非线性光学晶体面临的瓶颈问题。

11.  Structural andElectronic Properties of T Graphene: A Two-Dimensional Carbon Allotrope withTetrarings, Physical Review Letters 108, 225505 (2012). Y. Liu, G. Wang*, Q.S. Huang, L.W. Guo, and X.L. Chen* 预测了具有类石墨烯能带结构的四方对称新二维碳材料：T-型石墨烯

12.  Anderson Localization of electrons in Li_xFe₇Se₈, Science Advances, 2, e501283 (2016) T.P. Ying, Y.Q. Gu, X. Chen, X.B. Wang, S.F. Jin, L.L. Zhao, W. Zhang, X.L. Chen* 首个电子型Anderson绝缘体单晶

13. Two-Dimensional Pb Square Nets from Bulk (RO)_nPb (R = Rare Earth Metals, n = 1,2), Journal of the American Chemical Society 145, 31, 17435–17442 (2023) Xu Chen, Jun Deng, Shifeng Jin, Tianping Ying*, Ge Fei, Huifen Ren, Yunfan Yang, Ke Ma, Mingzhang Yang, Junjie Wang, Yanchun Li, Xin Chen, Xiaobing Liu, Shixuan Du*, Jian-gang Guo*, and Xiaolong Chen* 一类具有类单层Pb的新型二维层状化合物

[411]     X. Chen, G. Fei, Y. P. Song, D. J. Huang, B. Y. Pan, D. L. Yang, X. F. Yang, K. Y. Chen, X. H. Zhan, J. J. Wang, Q. H. Zhang, Y. C. Li, L. Gu L, X. Chen, S. Y. Li, J. G. Cheng, X. B. Liu, H. Hosono, J. G. Guo, X. L. Chen, ‘Superatomic Charge Density Wave in Cluster Assembled Au₆Te₁₂Se₈ Superconductors’ Journal of the American Chemical Society’ 144 (2022) 20915.

[410]     C. Y. Pei, T. P. Ying, Q. H. Zhang, X. X. Wu, T. X. Yu, Y. Zhao, L. L. Gao, C. H. Li, W. Z. Cao, Q. Zhang, A. P. Schnyder, L. Gu, X. L. Chen, H. Hosono, Y. P. Qi, ‘Caging-Pnictogen-Induced Superconductivity in Skutterudites IrX₃(X = As, P) Journal of the American Chemical Society’ 144 (2022) 6208

[409]     J. G. Guo, T. P. Ying, H. B. Gao, X. Chen, Y. P. Song, T. Lin, Q. H. Zhang, Q. Zheng, C. L. Li, Y. G. Xu, X. L. Chen, ‘Surface microstructures of lunar soil returned by Chang’e-5 mission reveal an intermediate stage in space weathering process’ Science Bulletin 67 (2022) 1696.

[408]     H. X. Chen, J. C. Gao, L. Chen, G. Wang, H. Li, Y. L. Wang, J. J. Liu, J. C. Wang, D. Y. Geng, Q. H. Zhang, J. M. Sheng, F. Ye, T. Qian, L. Chen, H. M. Weng, J. Ma, X. L. Chen, ‘Topological Crystalline Insulator Candidate ErAsS with Hourglass Fermion and Magnetic-Tuned Topological Phase Transition’ Advanced Materials 34 (2022) 2110664.

[407]     T. P. Ying, T. X. Yu, Y. P. Qi, X. L. Chen, H. Hosono, ‘High Entropy van der Waals Materials’ Advanced Sciences 9 (2022) 2203219.

[406]     X. Chen, J. J. Wang, T. P. Ying, D. J. Huang, H. Y. Gou, Q. H. Zhang, Y. C. Li, H. Hosono, J. G. Guo, X. L. Chen, ‘Insulator-metal-superconductor transition in the medium-entropy van der Waals compound MPSe₃ (M = Fe, Mn, Cd, and In) under high pressure’ Physical Review B 106 (2022) 184502.

[405]     J. Y. Zhou, S. F. Jin, C. C. Chai, M. N. Hao, X. Zhong, T. P. Ying, J. G. Guo, X. L. Chen, ‘Discovery of amantadine formate: Toward achieving ultrahigh pyroelectric performances in organics’ The Innovation 3 (2022) 100204.

[404]     Z. X. Chen, Y. X. Yang, J. Deng, S. X. Du, T. P. Ying, J. G. Guo, X. L. Chen, ‘Delicate superconductivity in nodal-line NaAlGe single crystal’ Journal of Physics: Condensed Matter 34 (2022) 495702.

[403]     N. J. Yang, H. Li, G. Wang, W. J. Wang, X. L. Chen, ‘A study of nucleation at initial growth stage of SiC single crystal by physical vapor transport’ Journal of Crystal Growth 585 (2022) 126591.

[402]     C. Cao, S. R. Chen, J. Deng, G. Li, Q. H. Zhang, L. Gu, T. P. Ying, E. J. Guo, J. G. Guo, X. L. Chen, ‘Two-Dimensional Electron Gas with High Mobility Forming at BaO/SrTiO3 Interface’ Chinese Physics Letters 39 (2022) 047301.

[401]    G. B. Wang, H. Li, D. Sheng, W. J. Wang, X. L. Chen, ‘Research Progress on the Growth of SiC Single Crystal via High Temperature Solution Growth Method’ 人工晶体学报 51 (2022) 3.

[400]     Z. K. Xie, X. L. Chen, J. G. Guo, ‘Transport and magnetic properties in polycrystalline Ba(Mn_1−xCr_x)₂As₂ and Ba_0.8K_0.2(Mn_1−xCr_x)₂As₂’ Physica B: Physics of Condensed Matter 637 (2022) 413880.

[399]     Y. P. Song, T. P. Ying, X. Chen, X. Han, X. X. Wu, A. P. Schnyder, Y. Huang, J. G. Guo, X. L. Chen, ‘Competition of Superconductivity and Charge Density Wave in Selective Oxidized CsV₃Sb₅ Thin Flakes’, Physical Review Letters 127 (2021) 23 237001.

[398]     R. J. Sun, S. F. Jin, J. Deng, M. N. Hao, X. Zhong, Y. X. Ma, M. X. Li, X. L. Chen, ‘Chemical Pressure Boost Record-High Superconductivity in van der Waals Materials FeSe_1-xS_x’ Advanced Functional Materials 31, (2021) 40 2102917.

[397]     Y. Zhou, L. Chen, G. Wang, Y. X. Wang, Z. C. Wang, C. C. Chai, Z. N. Guo, J. P. Hu, X. L. Chen, ‘A New Superconductor Parent Compound NaMn₆Bi₅ with Quasi-One-Dimensional Structure and Lower Antiferromagnetic-Like Transition Temperatures’ Chinese Physics Letter 39 (2022) 4, 047401.

[396]     J. Y. Zhou, S. F. Jin, R. J. Sun, C. C. Chai, M. N. Hao, X. Zhong, X. L. Chen, ‘Above-room-temperature coupling between ferroelastic domains and magnetism in an organic-inorganic hybrid: CsCu(HCOO)₂Cl’ Physical Review Materials 5, (2021) 7, 074405.

[395]     J. J. Wang, J. Deng, X. W. Liang, G. Y. Gao, T. P. Ying, S. J. Tian, H. C. Lei, Y. P. Song, X. Chen, J. G. Guo, X. L. Chen, ‘Spin-flip-driven giant magnetotransport in A-type antiferromagnet NaCrTe₂’ Physical Review Materials 5, (2021) L091401.

[394]     J. Deng, J. G. Guo, Hideo Hosono, T. P. Ying, X. L. Chen, ‘Two-dimensional bipolar ferromagnetic semiconductors from layered antiferromagnets’ Physical Review Materials 5, (2021) 034005.

[393]     X. Chen, X. H. Zhan, X. J. Wang, J. Deng, X. B. Liu, X. Chen, J. G. Guo, X. L. Chen, ‘Highly Robust Reentrant Superconductivity in CsV3Sb5 under Pressure’ Chinese Physics Letters 38, (2021) 057402.

[392]     X. Chen, J. G. Guo, J. Deng, R. Wang, S. J. Zhao, N. Chen, H. Y. Gou, B. Song, X. L. Chen, ‘Highly Active Sites in Quaternary LnPdAsO (Ln = La, Ce, Pr) with Excellent Catalytic Activity for Hydrogen Evolution Reaction’ Applied Energy Materials 4, (2021) 4302.

[391]     J. Deng, J. G. Guo, Hideo Hosono, T. P. Ying, X. L. Chen, ‘Two-dimensional bipolar ferromagnetic semiconductors from layered antiferromagnets’ Physical Review Materials 3, (2021) 034005.

[390]     Y. X. Yang, W. H. Fan, Q. H. Zhang, Z. X. Chen, X. Chen, T. P. Ying, X. X. Wu, X. F. Yang, F. Q. Meng, G. Li, S. Y. Li, L. Gu, T. Qian, Schnyder Andreas, J. G. Guo, X. L. Chen, ‘Discovery of Two Families of VSb-Based Compounds with V-Kagome Lattice’ Chinese Physics Letters 38 (2021) 12, 127102

[389]     N. F. Zhang, N. J. Yang, W. J. Wang, X. Zhong, X. L. Chen, ‘Growth of hexagonal boron nitride crystals at atmospheric pressure from Cu–Cr flux’ Journal of Crystal Growth’ 562 (2021) 126074

[388]     Zesheng Zhang, Long Chen, Jun Deng, Guobin Wang, Yanpeng Song, Jiangang Guo, Wenjun Wang, and Xiaolong Chen, ‘Intrinsic ferromagnetism in 4H-SiC single crystal induced by Al-doping’, Applied Physics A-Materials Science & Processing 126 (2020) 729.

[387]     Jun Deng, Jiangang Guo, and Xiaolong Chen, ‘Molecular oxygen-induced ferromagnetism and half-metallicity in alpha-BaNaO₄: A first-principles study’, Journal of The American Chemical Society 142 (2020) 5234-5240.

[386]     Xiang Yuan, Cheng Zhang, Yi Zhang, Zhongbo Yan, Tairu Lyu, Mengyao Zhang,  Zhilin Li, Chaoyu Song, Minhao Zhao, Pengliang Leng, Mykhaylo Ozerov, Xiaolong Chen, Nanlin Wang, Yi Shi, Hugen Yan, and Faxian Xiu, ‘The discovery of dynamic chiral anomaly in a Weyl semimetal NbAs’, Nature Communications 11 (2020) 1259.

[385]     Xiaoning Sun, Yanpeng Song, Jun Deng, Shifeng Jin, and Xiaolong Chen, ‘New layered chromium chalcogenides CsLiCrSe₂, RbLiCrS₂ and CsLiCrS₂: Structures and properties’, Dalton Transactions 48 (2019) 17572-17578.

[384]     Shengqiang Zhou,  Xiaolong Chen, ‘Defect-induced magnetism in SiC’,  Journal of Physics D-Applied Physics 52 (2019) 393001.

[383]     Ruijin Sun, Shifeng Jin, Lin Gu, Qinhua Zhang, Qingzhen Huang, Tianping Yin, Yiran Peng, Jun Deng, Zhiping Yin, Xiaolong Chen, ‘Intercalating Anions between Terminated Anion Layers: Unusual Ionic S-Se Bonds and Hole-Doping Induced Superconductivity in S_0.24(NH₃)_0.26Fe₂Se₂’ Journal of The American Chemical Society 141 (2019) 13849-13857.

[382]     Y. Zheng, T. Lu, MdM. H. Polash,  M. Rasoulianboroujeni, N. Liu, M. E. Manley, Y. Deng, P. J. Sun, X. L. Chen, R. P. Hermann, D. Vashaee, J. P. Heremans, H. Zhao, ‘Paramagnon drag in high thermoelectric figure of merit Li-doped MnTe’, Science Advances 5 (2019)

[381]     Yang Chi,  Jing Xu,  Huai-Guo Xue, Yueping Zhang, Xiaolong Chen, Myung-Hwan Whangbo, Sheng-Ping Guo, Shuiquan Deng, ‘Triple-Kagome-Layer Slabs of Mixed-Valence Rare-Earth Ions Exhibiting Quantum Spin Liquid Behaviors: Synthesis and Characterization of Eu₉MgS₂B₂₀O₄₁’,  Journal of The American Chemical Society 141 (2019) 9533-9536.

[380]     Xiao Fan, Xiao, Hongxiang Chen, Jun Deng, Xiaoning Sun, Linlin Zhao,  Long Chen, Shifeng Jin, Gang Wang, Xiaolong Chen, ‘Effects of Rb Intercalation on NbSe₂: Phase Formation, Structure, and Physical Properties’, Inorganic Chemistry 58 (2019) 7564-7570.

[379]     Yanpeng Song, Xiaowei Liang, Jiangang Guo, Jun Deng, Guoying Gao, Xiaolong Chen, ‘Superconductivity in Li-intercalated 1T-SnSe₂ driven by electric field gating’, Physical Review Materials 3 (2019) 054804.

[378]     Jun Deng, Ning Liu, Jiangang Guo, Xiaolong Chen, ‘Large spin gaps in the half-metals MN₄ (M=Mn, Fe, Co) with N-2 dimers’, Physical Review B 99 (2019) 184409.

[377]     Xu Chen, Jiangang Guo, Chunsheng Gong, Erjian Cheng, Congcong Le, Ning Liu,  Tianping Ying,  Qinghua Zhang,  Jiangping Hu,  Shiyan Li, Xiaolong Chen, ‘Anomalous Dome-like Superconductivity in RE₂₍Cu_1-xNi_x)₅As₃O₂ (RE = La, Pr, Nd)’, Iscience 14 (2019) 171.

[376]     Hongxiang Chen, Dongliang Yang,  Qinghua Zhang,  Shifeng Jin, Liwei Guo,  Jun Deng,Xiaodong Li, Xiaolong Chen, ‘A Series of MAX Phases with MA-Triangular-Prism Bilayers and Elastic Properties’, Angewandte Chemie-International Edition 58 (2019) 4576-4580.

[375]     Dongfang Zhang,  Tianyou Gao, Peng Zou,  Lingran Kong,  Ruizong Li, Xing Shen, Xiaolong Chen, Shi-Guo Peng, Mingsheng Zhan, Han Pu, Kaijun Jiang, ‘Ground-State Phase Diagram of a Spin-Orbital-Angular-Momentum Coupled Bose-Einstein Condensate’, Physical Review Letters 122(2019) 110402.

[374]     Gennaro Chiarello, Johannes Hofmann, Zhilin Li, Vito Fabio, Liwei Guo, Xiaolong Chen, Sankar Das Sarma, Antonio Politano, ‘Tunable surface plasmons in Weyl semimetals TaAs and NbAs’, Physical Review B 99 (2019) 121401

[373]     Linlin Zhao, Da Wang, Qingzhen Huang, Hui Wu, Ruijin Sun, Xiao Fan, Yanpeng Song, Shifeng Jin, Xiaolong Chen, ‘Structural evolution and phase diagram of the superconducting iron selenides Li_x(C₂H₈N₂)_yFe₂Se₂(x=0 similar to 0.8)’, Physical Review B 99(2019) 094503.

[372]     Kunkun Li, Shifeng Jin, Jiangang Guo, Yanping Xu, Yixi Su, Erxi Feng, Yu Liu, Shengqiang Zhou, Tianping Ying, Shiyan Li, Ziqiang Wang, Gang Chen, Xiaolong Chen, ‘Double-peak specific heat and spin freezing in the spin-2 triangular lattice antiferromagnet FeAl₂Se₄’, Physical Review B 99 (2019) 054421.

[371]     Xu Chen, Jian-gang Guo, Chunsheng Gong, Erjian Cheng, Yanpeng Song, Tianping Ying, Jun Deng, Shiyan Li, Xiaolong Chen, ‘Structure and Transport Properties in Itinerant Antiferromagnet RE₂(Ni_1-xCu_x)₅As₃O₂ (RE = Ce, Sm)’, Inorganic Chemistry 58 (2019) 2770-2776.

[370]     Z. S. Zhang, H. Cai, D. Gan, W. J. Hu, J. W. Yang, X. Z. Liu, Y. L. Guo, L. W. Guo, W. J. Wang, and X. L. Chen, ‘A new method to characterize underlying scratches on SiC wafers’, CrystEngComm 21 (2019) 1200-1204.

[369]     Xiao Fan, Jun Deng, Hongxiang Chen, Hongxiang); Linlin Zhao, Ruijin Sun, Shifeng Jin, X. L. Chen, ‘Nematicity and superconductivity in orthorhombic superconductor Na_0.35(C₃N₂H₁₀)(_0.426)Fe₂Se₂’, Physical Review Materials 2 (2018) 114802.

[368]     Shi-Feng Jin, Jian-Gang Guo, Gang Wang, X. L. Chen, ‘Research progress on FeSe-based superconducting materials’, Acta Physica Sinica 67 (2018) 207412.

[367]     Ning Liu, X. L. Chen, Jiangang Guo, Jun Deng,Liwei Guo, ‘New Type of Nitrides with High Electrical and Thermal Conductivities’, Chinese Physics Letters 35 (2018) 087102.

[366]     H. X. Chen, Z. L. Li, X. Fan, L. W. Guo, X. L. Chen, ‘Quantum linear magnetoresistance in NbTe₂’, Solid State Communications 275 (2018) 16-20.

[365]     Yan-Peng Song, Hong-Xiang Chen, Jian-Gang Guo, X. L. Chen, ‘Crystal structures and physical properties of novel 4d/5d based superconductors’, Acta Physica Sinica 67 (2018) 127101.

[364]     Antonio Politano, Gennaro Chiarello, Zhilin Li, Vito Fabio, Lin Wang, Liwei Guo, Liwei, X. L. Chen, Danil W. Boukhvalov, ‘Toward the Effective Exploitation of Topological Phases of Matter in Catalysis: Chemical Reactions at the Surfaces of NbAs and TaAs Weyl Semimetals’, Advanced Functional Materials 28 (2018) 1800511.

[363]     X. Y. Jia, Y. J. Yu, X. Chen, J. G. Guo, T. P. Ying, L. P. He, X. L. Chen, and S. Y. Li, ‘Nodeless superconductivity in a quasi-two-dimensional superconductor AuTe₂Se_4/3’, Chinese Physics B 27 (2018) 067401.

[362]     X. Yuan, Z. B. Yan, C. Y. Song, M. Y. Zhang, Z. L. Li, C. Zhang, Y. W. Liu, W. Y. Wang, M. H. Zhao, Z. H. Lin, T. Xie, J. Ludwig, Y. X. Jiang, X. X. Zhang, C. Shang, Z. F. Ye, J. X. Wang, F. Chen, Z. C. Xia, D. Smirnov, X. L. Chen, Z. Wang, H. G. Yan, and F. X. Xiu, ‘Chiral Landau levels in Weyl semimetal NbAs with multiple topological carriers’, Nature Communications 9 (2018) 1854.

[361]     K. K. Li, Q. Z. Huang, Q. H. Zhang, Z. W. Xiao, T. Kamiya, H. Hosono, D. D.  Yuan, J. G. Guo, and X. L. Chen, ‘CsFe₄-delta Se₄: A Compound Closely Related to Alkali-Intercalated FeSe Superconductors’, Inorganic Chemistry 57 (2018) 4502-4509.

[360]     D. Wang, N. Liu, Z. N. Guo, W. J. Wang, L. G. Guo, W. X. Yuan, and X. L.  Chen, ‘Hexagonal SiC with spatially separated active sites on polar and nonpolar facets achieving enhanced hydrogen production from photocatalytic water reduction’, Physical Chemistry Chemical Physics 20 (2018) 4787-4792.

[359]     D.D. Yuan, N. Liu, K.K. Li, S.F. Jin, J.G. Guo, X.L. Chen, ‘Structure Evolution and Spin-Glass Transition of Layered Compounds ALiFeSe(₂) (A = Na, K, Rb) ’, Inorganic Chemistry 56 (2017) 13187-13193.

[358]     Xu Chen, Ning Liu, Jiangang Guo, XiaoLong Chen, ‘Direct response of the spin-density wave transition and superconductivity to anion height in SrFe₂As₂’, Physical Review B 96 (2017) 134519.

[357]    J.G. Guo, X. Chen, X. Y. Jia, Q.H. Zhang, N. Liu, H.C. Lei, S.Y. Li, L. Gu, S.F. Jin, and X.L. Chen, ‘Quasi-two-dimensional superconductivity from dimerization of atomically ordered AuTe₂Se_4/3 cubes’, Nature Communications 8 (2017) 871.

[356]     Junwei Yang, Liwei Guo, Jiao Huang, Qi Mao, Yunlong Guo, Yuping Jia, Tonghua Peng, and XiaoLong Chen, ‘Rectified photocurrent in a planar ITO/graphene/ITO photodetector on SiC by local irradiation of ultraviolet light’, Journal of Physics D-Applied Physics 50 (2017) 405102.

[355]     Yu Liu, Zhilin Li, Liwei Guo, XiaoLong Chen, Ye Yuan, Chi Xu, Huebner, Rene, Akhmadaliev Shavkat, Krasheninnikov Arkady V.,  N'Diaye Alpha T., Arenholz Elke, Helm Manfred,  and Shengqiang Zhou, ‘Towards diluted magnetism in TaAs’, Physical Review Materials 1 (2017) 044203.

[354]     Huaizhou Zhao, Binglei Cao, Shanming Li, Ning Liu, Jiawen Shen, Shan Li, Jikang Jian, Lin Gu, Yanzhong Pei, Snyder Gerald Jeffrey, Ren Zhifeng, and XiaoLong Chen, ‘Engineering the Thermoelectric Transport in Half-Heusler Materials through a Bottom-Up Nanostructure Synthesis’, Advanced Energy Materials 7 (2017) 1700446.

[353]     Shifeng Jin, Xiao Fan, Xiaozhi Wu, Ruijin Sun, Hui Wu, Qingzhen Huang, Chenlong Shi, Xuekui Xi, Zhilin Li, and XiaoLong Chen, ‘High-T-c superconducting phases in organic molecular intercalated iron selenides: synthesis and crystal structures’, Chemical Communications 53 (2017) 9729-9732.

[352]     Ning Liu, Wenjun Wang, Liwei Guo, Tonghua Peng, and XiaoLong Chen, ‘Superconductivity in nitrogen-doped 3C-SiC from first-principles calculations’, Modern Physics Letters B 31 (2017) 1750116.

[351]     Ning Liu, Shifeng Jin, Liwei Guo, Gang Wang, Hezhu Shao, Liang Chen, and XiaoLong Chen, ‘Two-dimensional semiconducting gold’, Physical Review B 95 (2017) 155311.

[350]     Yuping Jia, Liwei Guo, Jingjing Lin, Junwei Yang, XiaoLong Chen, ‘Direct growth of unidirectional spindle-shaped graphene nanoribbons on SiC’, Carbon 114 (2017) 585-590.

[349]     Duanduan Yuan, Shifeng Jin, Ning Liu, Shijie Shen, Zhiping Lin, Kunkun Li and XiaoLong Chen, ‘Tuning magnetic properties in quasi-two-dimensional ferromagnetic Fe_3−yGe_1−xAs_xTe₂ (0  ≤  x  ≤  0.85)’, Materials Research Express 4 (2017) 036103.

[348]     Sessi Paolo, Yan Sun, Bathon Thomas, Glott Florian, Zhilin Li, Hongxiang Chen, Liwei Guo, XiaoLong Chen, Schmidt Marcus, Felser Claudia, Binghai Yan, and Bode Matthias, ‘Impurity screening and stability of Fermi arcs against Coulomb and magnetic scattering in a Weyl monopnictide’, Physical Review B 95 (2017) 035114.

[347]     Hongxiang Chen, Zhilin Li, Liwei Guo, XiaoLong Chen, ‘Anisotropic magneto-transport and magnetic properties of low-temperature phase of TaTe₂’, EPL 117 (2017) 27009.

[346]     Jiangang Guo, and XiaoLong Chen, ‘The crystal structure and physical properties of multiple components FeSe-based superconductors’, Chinese Science Bulletin 62 (2017) 3967-3980.

[345]     Di Gan, Youting Song, Junwei Yang, Hongxiang Chen, Liwei Guo, XiaoLong Chen, ‘Identification of 6H-SiC polar faces with pull-off force of atomic force microscopy’, Applied Surface Science 390 (2016) 917-923.

[344]     Yu Liu, Ruiqun Pan, Xinghong Zhang, Jiecai Han, Quan Yuan, Ying Tian,Ye Yuan,Fang Liu, Yutian Wang, AT N'Diaye, Elke Arenholz, XiaoLong Chen, Young Sun, Bo Song and Shengqiang Zhou, ‘Vacancy defect complexes in silicon: Charges and spin order’, Physical Review B 94 (2016) 195204.

[343]     W. W. Zhong,  Y. F. Huang,  D. Gan,  J. Y. Xu,  H. Li,  G. Wang,  S. Meng*  and  X. L. Chen*, ‘Wetting behavior of water on silicon carbide polar surfaces’ , Physical Chemistry Chemical Physics 18 (2016) 28033.

[342]     Yu Liu, Gang Wang, Tianping Ying, Xiaofang Lai, Shifeng Jin, Ning Liu, Jiangping Hu, XiaoLong Chen, ‘Understanding Doping, Vacancy, Lattice Stability, and Superconductivity in K_xFe₂-ySe₂’, Advanced Science 3 (2016), 1600098.

[341]     Yu Liu, Slawomir Prucnal, Shengqiang Zhou, Zhilin Li, Liwei Guo, XiaoLong Chen, Ye Yuan, Fang Liu and Manfred Helm, ‘Intrinsic diamagnetism in the Weyl semimetal TaAs’, Journal of Magnetism and Magnetic Materials 408 (2016) 73-76.

[340]     Zhilin Li, Hongxiang Chen, Shifeng Jin, Di Gan, Wenjun Wang, Liwei Guo and XiaoLong Chen, ‘Weyl Semimetal TaAs: Crystal Growth, Morphology, and Thermodynamics’, Crystal Growth & Design 9 (2016) 1172-1175.

[339]     Han Zhang, Shifeng Jin, Liwei Guo, Shijie Shen, Zhiping Lin and XiaoLong Chen, ‘Bandgap narrowing in the layered oxysulfide semiconductor Ba₃Fe₂O₅Cu₂S₂: Role of FeO₂  layer’, Chinese Physics B 25 (2016), 026101.

[338]     Han Zhang, Xiaozhi Wu, Dandan Li, Shifeng Jin, Xiao Chen, Tao Zhang, Zhiping Lin, Shijie Shen, Duanduan Yuan and XiaoLong Chen, ‘Ca₂O₃Fe₂.6S₂: an antiferromagnetic Mott insulator at proximity to bad metal’, Journal of physics-Condensed matter 28 (2016) 145701.

[337]     Yanfang Lou, Dandan Li, Zhilin Li,Shifeng Jin and XiaoLong Chen, ‘Unidirectional thermal expansionin edge-sharing BO₄ tetrahedracontained KZnB₃O₆’, Scientific Reports 5 (2015) 10996.

[336]     Yanfang Lou, Dandan Li, Zhilin Li, Han Zhang, Shifeng Jin and XiaoLong Chen, ‘Unidirectional thermal expansion in KZnB₃O₆:role of alkali metals’, Dalton Transaction 44 (2015) 19763.

[335]     S.F. Jin, Q. Huang, Z.P. Lin, Z.L. Li, X.Z. Wu, T.P. Ying, G. Wang, and X.L. Chen, ‘Two-dimensional magnetic correlations and partial long-range order in geometrically frustratedCaOFeS with triangle lattice of Fe ions’, Physical Review B 91 (2015) 094420.

[334]     Di Gan, Youting Song, Wei Sun, Liwei Guo, and XiaoLong Chen, ‘Origin of a fourfold symmetric (0006) Bragg diffraction intensity in ϕ-scan mode on a 6H-SiC crystal’, Journal of Physics D: Applied Physics 48 (2015) 435105.

[333]     Zhilin Li, Lianlian Chen, Sheng Meng, Liwei Guo, 1Jiao Huang, Yu Liu, Wenjun Wang, and XiaoLong Chen, ‘Field and temperature dependence of intrinsic diamagnetism in graphene: Theory and experiment’, Physical Review B 91 (2015) 094429.

[332]     Wei Lu, Da Wang, Liwei Guo, Yuping Jia, Manping Ye, Jiao Huang, Zhilin Li, Yuan Peng, Wenxia Yuan, and XiaoLong Chen, ‘Bipolar Carrier Transfer Channels in Epitaxial Graphene/SiC Core–Shell Heterojunction for Efficient Photocatalytic Hydrogen Evolution’, Advanced Materials 27 (2015) 7986-7991.

[331]     Wei Sun, Youting Song, Chunjun Liu, Tonghua Peng, Wenjun Wang, and XiaoLong Chen, ‘Basal plane dislocation-threading edge dislocation complex dislocations in 6H-SiC single crystals’, Materials Express 5 (2015) 63.

[330]     T. Zhou, Y. Wang, S. Jin, D. Li, X. Lai, T. Ying, H. Zhang, S. Shen, W. Wang, and X.L. Chen, ‘Structures and physical properties of layered oxyselenides Ba(2)MO(2)Ag(2)Se(2) (M = Co, Mn)’, Inorg. Chem. 53 (2014) 4154.

[329]     Chunhua Xu, Shunchong Wang, Gang Wang, Jingkui Liang, Shanpeng Wang, Lei Bai, Junwei Yang, and XiaoLong Chen, ‘Temperature dependence of refractive indices for 4H- and 6H-SiC’, J. Appl. Phys. 115 (2014) 113501.

[328]     Gang Wang, Tianping Ying, Yaobo Huang, Shifeng Jin, Lei Yan, Hong Ding, and XiaoLong Chen, ‘Growth of (Na_xK_y)Fe_zSe₂ crystals by chlorides flux at low temperatures’, J. Cryst. Growth 405 (2014) 1.

[327]     Bo Wang, Tonghua Peng, Jingkui Liang, Gang Wang, Wenjun Wang, Huaizhou Zhao, and XiaoLong Chen, ‘Characterizations and formation mechanism of a new type of defect related to nitrogen doping in SiC crystals’, Appl. Phys. A 117 (2014) 1563.

[326]     Shijie Shen, Gang Wang, Shifeng Jin, Qingzhen Huang, Tianping Ying, Dandan Li, Xiaofang Lai, Tingting Zhou, Han Zhang, Zhiping Lin, Xiaozhi Wu, and XiaoLong Chen, ‘Tunable Cobalt Vacancies and Related Properties in LaCo_xAs₂’, Chem. Mater. 26 (2014) 6221.

[325]     Chunjun Liu, XiaoLong Chen, Tonghua Peng, Bo Wang, Wenjun Wang, and Wang Gang, ‘Step flow and polytype transformation in growth of 4H-SiC crystals’, J. Cryst. Growth 394 (2014) 126.

[324]     Jingjing Lin, Liwei Guo, Yuping Jia, Rong Yang, Shuang Wu, Jiao Huang, Yu Guo, Zhilin Li, Guangyu Zhang, and XiaoLong Chen, ‘Identification of dominant scattering mechanism in epitaxial graphene on SiC’, Appl. Phys. Lett. 104 (2014) 183102.

[323]     J. Huang, L. W. Guo, Z. L. Li, L. L. Chen, J. J. Lin, Y. P. Jia, W. Lu, Y. Guo, and X. L. Chen, ‘Anisotropic quantum transport in a network of vertically aligned graphene sheets’, Journal of physics: Condensed matter 26 (2014) 345301.

[322]     H. T. Fan, C. H. Xu, Z. H. Wang, G. Wang, C. J. Liu, J. K. Liang, X. L. Chen, and Z. Y. Wei, ‘Generation of broadband 17-μJ mid-infrared femtosecond pulses at 3.75  μm by silicon carbide crystal’, Opt. Lett. 39 (2014) 6249.

[321]     Y. Guo, L. W. Guo, J. Huang, R. Yang, Y. P. Jia, J. J. Lin, W. Lu, Z. L. Li, and X. L. Chen, ‘The correlation of epitaxial graphene properties and morphology of SiC (0001)’, J. Appl. Phys. 115 (2014) 043527

[320]     Kaixing Zhu, XiaoLong Chen, Jun Liu, Liangbao Jiang, Jiangang Guo, Sibin Zuo, and Wenjun Wang, ‘Synthesis and Characterization of NiO Nanowire/In₂O₃ Nanoparticle Heterostructures’, Journal of Nanoscience and Nanotechnology 13 (2013) 1159.

[319]     Jing-Jing Lin, Li-Wei Guo, Yu-Ping Jia, Lian-Lian Chen, Wei Lu, Jiao Huang, and XiaoLong Chen, ‘Effect of 6H-SiC (1120) substrate on epitaxial graphene revealed by Raman scattering’, Chin. Phys. B. 22 (2013) 016301.

[318]     T.P. Ying, G. Wang, S.F. Jin, S.J. Shen, H. Zhang, T.T. Zhou, X.F. Lai, W.Y. Wang, and X.L. Chen, ‘Exploring FeSe-based superconductors by liquid ammonia method’, Chinese Physics B 22 (2013) 087412.

[317]     C.J. Liu, T.H. Peng, S.C. Wang, B. Wang, W. Sun, G. Wang, W.J. Wang, and X.L. Chen, ‘Formation mechanism of Type 2 micropipe defects in 4H-SiC crystals’, CrystEngComm 15 (2013) 1307-1313.

[316]     J. Liu, S.S. Tang, Y.K. Lu, G.M. Cai, S.Q. Liang, W.J. Wang, and X.L. Chen, ‘Synthesis of Mo₂N nanolayer coated MoO₂ hollow nanostructures as high-performance anode materials for lithium-ion batteries’, Energy & Environmental Science 6 (2013) 2691.

[315]    X.F. Lai, X.L Chen, S.F. Jin, G. Wang, T.T. Zhou, T.P. Ying, H. Zhang, S.J. Shen, and W.Y. Wang, ‘New Layered Iron Sulfide NaFe_1.6S₂: Synthesis and Characterization’, Inorganic Chemistry 52 (2013) 12860.

[314]     T.T. Zhou, X.L. Chen, J.G. Guo, S.F. Jin, G. Wang, X.F. Lai, T.P. Ying, H. Zhang, S.J. Shen, S.C. Wang, and K.X. Zhu, ‘Effects of Co and Mn doping in K_0.8Fe_2-ySe₂ revisited’, Journal of Physics: Condensed Matter 25 (2013) 275701.

[313]     T.P. Ying, X.L. Chen, G. Wang, S.F. Jin, X.F. Lai, T.T. Zhou, H. Zhang, S.J. Shen, and W.Y. Wang, ‘Superconducting phases in potassium-intercalated iron selenides’, Journal of the American Chemical Society 135 (2013) 2951-2954.

[312]     H.L. Li, G.M. Cai, J.J. Fan, Z.P. Jin, T.T. Zhou, and X.L. Chen, ‘Crystal structures of two novel borate compounds MgInBO₄ and MgIn_7/8B_7/8O_29/8’, Journal of Solid State Chemistry 202 (2013) 262–268.

[311]     S.C. Wang, M.J. Zhan, G. Wang, H.W. Xuan, W. Zhang, C.J. Liu, C.H. X, Y. Liu, Z.Y. Wei, and X.L. Chen, ‘4H-SiC: a new nonlinear material for midinfrared lasers’, Laser & Photonics Reviews 7 (2013) 831–838.

[310]     L.L. Chen, L.W. Guo, Y. Wu, Y.P. Jia, Z.L. Li, and X.L. Chen, ‘Fabrication of vertically aligned graphene sheets on SiC substrates’, RSC Advances, 3 (2013) 13926.

[309]     Y.P. Jia, L.W. Guo, W. Lu, Y. Guo, J.J. Lin, K.X. Zhu, L.L. Chen, Q.S. Huang, J. Huang, Z.L. Li, and X.L. Chen, ‘Fabrication and characterization of graphene derived from SiC’, Science China Physics, Mechanics, & Astronomy 56 (2013)  2386–2394.

[308]     L.L. Chen, L.W. Guo, Z.L. Li, H. Zhang, J.J. Lin, J. Huang, S.F. Jin, and X.L. Chen, ‘Towards intrinsic magnetism of graphene sheets with irregular zigzag edges’, Scientific Reports 3 (2013) 2599.

[307]     X.H. Zhang, C.L. Zhao, J.C. Han, Y. Wang, J.K. Jian, G. Wang, Z.H. Zhang, H. Li, W.J. Wang, Y.T. Song, Y. Liu, H.Q. Bao, X.L. Chen, and B. Song, ‘Observation of symmetrically decay of A1(longitudinal optical) mode in free-standing GaN bulk single crystal from Li3N flux method’, Applied Physics Letters 102 (2013) 011916.

[306]     Y. Liu, G. Wang, Q.S. Huang, L.W. Guo, and X.L. Chen, ‘Liu et al. Reply’, Physical Review Letters 110 (2013) 029604.

[305]     Y. Liu, G. Wang, Q.S. Huang, L.W. Guo, and X.L. Chen, ‘Liu et al. Reply’, Physical Review Letters 110 (2013) 029602.

[304]     M. He, H. Okudera, A. Simon, J. Köhler, S.F. Jin, and X.L. Chen, ‘Structure of Li4B₂O₅: High-temperature monoclinic and low-temperature orthorhombic forms’, Journal of Solid State Chemistry 197 (2013) 466-470.

[303]     S.C. Wang, G. Wang, Y. Liu, L.B. Jiang, W.J. Wang, and X.L. Chen, ‘Vanadium bound exciton luminescence in 6H-SiC’, Applied Physics Letters 101 (2012) 151903.

[302]     S.F. Jin, X.L. Chen, J.G. Guo, M. Lei, J.J. Lin, J.G. Xi, W.J. Wang, and W.Y. Wang, ‘Sr₂Mn₃Sb₂O₂ Type Oxyselenides: Structures, Magnetism, and Electronic Properties of Sr₂AO₂M₂Se₂ (A=Co, Mn; M=Cu, Ag)’, Inorganic Chemistry 51 (2012) 10185-10192.

[301]     Y.P. Jia, L.W. Guo, J.J. Lin, L.L. Chen, and X.L. Chen, ‘Wafer-scale graphene on 2 inch SiC with uniform structural and electrical characteristics’, Chinese Science Bulletin 57 (2012) 3022-3025.

[300]     S.B. Zuo, X.L. Chen, L.B. Jiang, H.Q. Bao, J. Wang, L.W. Guo, and W.J. Wang, ‘Crystal growth of AlN: Effect of SiC substrate’, Materials Science in Semiconductor Processing 15 (2012) 401-405.

[299]     P. Ma, Z. Jin, J.N. Guo, H.L. Pan, X.Y. Liu, T.C. Ye, Y.P. Jia, L.W. Guo, and X.L. Chen, ‘Top-gated graphene field-effect transistors on SiC substrates’, Chinese Science Bulletin 57 (2012) 2401-2403.

[298]     Y. Liu, G. Wang, Q.S. Huang, L.W. Guo, and X.L. Chen, ‘Structural and Electronic Properties of T Graphene: A Two-Dimensional Carbon Allotrope with Tetrarings’, Physical Review Letters 108 (2012) 225505.

[297]     J. Guo, X.J. Chen, J.H. Dai, C. Zhang, J.G. Guo, X.L. Chen, Q. Wu, D.C. Gu, P.W. Gao, L.H. Yang, K. Yang, X. Dai, H.K. Mao, and L.L. Sun, and Z.X. Zhao, ‘Pressure-Driven Quantum Criticality in Iron-Selenide Superconductors’, Physical Review Letters 108 (2012) 197001.

[296]     T.P. Ying, X.L. Chen, G. Wang, S.F. Jin, T.T. Zhou, X.F. Lai, H. Zhang, and W.Y. Wang, ‘Observation of superconductivity at 30~46K in A_xFe₂Se₂ (A=Li, Na, Ba, Sr, Ca, Yb, and Eu)’, Scientific Reports 2 (2012) 426.

[295]    Y. Liu, L.B. Jiang, G. Wang, S.B. Zuo, W.J. Wang, and X.L. Chen, ‘Adjustable nitrogen-vacancy induced magnetism in AlN’, Applied Physics Letters 100 (2012) 122401.

[294]     Y. Sun, C. Wang, L.H. Chu, Y.C. Wen, Y.Y. Na, M. Nie, and X.L. Chen, ‘Ni-doping effect on the magnetic transition and correlated lattice contraction in antiperovskite Mn₃ZnN compounds’, Solid State Communications 152 (2012) 446-449.

[293]     L.L. Sun, X.J. Chen, J. Guo, P.W. Gao, Q.Z. Huang, H.D. Wang, M.H. Fang, X.L. Chen, G.F. Chen, Q. Wu, C. Zhang, D.C. Gu, X.L. Dong, L. Wang, K. Yang, A.G. Li, X. Dai, H.K. Mao, and Z.X. Zhao, ‘Re-emerging superconductivity at 48 kelvin in iron chalcogenides’, Nature 483 (2012) 67-69.

[292]     J.G. Guo, X.L. Chen, G. Wang, S.F. Jin, T.T. Zhou, and X.F. Lai, ‘Effect of doping on electrical, magnetic, and superconducting properties of K_xFe_2-yS₂’, Physical Review B 85 (2012) 054507.

[291]     S.B. Zuo, J. Wang, X.L. Chen, S.F. Jin, L.B. Jiang, H.Q. Bao, L.W. Guo, W. Sun, and W.J. Wang, ‘Growth of AlN single crystals on 6H-SiC (0001) substrates with AlN MOCVD buffer layer’, Crystal Research and Technology 47 (2012) 139-144.

[290]     K.X. Zhu, L.W. Guo, J.J. Lin, W.C. Hao, J. Shang, Y.P. Jia, L.L. Chen, S.F. Jin, W.J. Wang, and X.L. Chen, ‘Graphene covered SiC powder as advanced photocatalytic material’, Applied Physics Letters 100 (2012) 023113.

[289]     Y.T. Song, W.C. Chen, and X.L. Chen, ‘Crystal Chiral Symmetry Breaking: A Self-Seed Inducing Effect Controlled by Kinetics’, Crystal Growth Design 12 (2012) 8-11.

[288]    L. Ding, C. Wang, L.H. Chu, J. Yan, Y.Y. Na, Q.Z. Huang, and X.L. Chen, ‘Near zero temperature coefficient of resistivity in antiperovskite Mn₃Ni_1-xCu_xN’, Applied Physics Letters 99 (2011) 251905.

[287]     Y.Y. Na, C. Wang, L.H. Chu, L. Ding, J. Yan, Y.F. Xue, W.F. Xie, and X.L. Chen, ‘Preparation and properties of antiperovskite Mn₃NiN thin film’, Materials Letters 65 (2011) 3447-3449.

[286]     B. Song, X.L. Chen, J.C. Han, G. Wang, H.Q. Bao, L.B. Duan, K.X. Zhu, H. Li, Z.H. Zhang, W.Y. Wang, W.J. Wang, X.H Zhang, and S.H. Meng, ‘Raman scattering and magnetizations studies of (Al, Cr)-codoped 4H-SiC’, Journal of Magnetism and Magnetic Materials 323 (2011) 2876-2882.

[285]     Q.S. Huang, X.L. Chen, J.J. Lin, K. Li, Y.P. Jia, J. Liu, L.W. Guo, W.J. Wang, and G. Wang, ‘Preparation of quasi-free-standing graphene with a super large interlayer distance by methane intercalation’, The Journal of Physical Chemistry C 115 (2011) 20538-20545.

[284]     H. Li, B. Song, W.J. Wang, and X.L. Chen, ‘Facile synthesis, thermal, magnetic, Raman characterizations of spinel structure ZnMn₂O₄’, Materials Chemistry and Physics 130 (2011) 39-44.

[283]     G.M. Cai, Y. Sun, H.K. Li, X. Fan, X.L. Chen, F. Zheng, and Z.P. Jin, ‘Crystal structure and photoluminescence of Tb³⁺-activated Ba₃InB₃O₉’, Materials Chemistry and Physics 129 (2011) 761-768.

[282]     J.Q. Yu, L.J. Liu, S.F. Jin, H.T. Zhou, X.L. He, C.L. Zhang, W.N. Zhou, X.Y. Wang, X.L. Chen, and C.T. Chen, ‘Superstructure and stacking faults in hydrothermal-grown KBe₂BO₃F₂ crystals’, Journal of Solid State Chemistry 184 (2011) 2790-2793.

[281]     Y.Y. Na, C. Wang, L.H. Chu, L. Ding, N. Ji, J.P. Wang, and X.L. Chen, ‘Magnetic and electronic transport properties of antiperovskite Mn₃Cu(Ge)N thin films’, Materials Letters 65 (2011) 2401-2403.

[280]     Z. G. Chen, R. H. Yuan, T. Dong, G. Xu, Y. G. Shi, P. Zheng, J. L. Luo, J. G. Guo, X. L. Chen, and N. L. Wang, ‘Infrared spectrum and its implications for the electronic structure of the semiconducting iron selenide K_0.83Fe_1.53Se₂’, Physical Review B 83 (2011) 220507.

[279]     K.X. Zhu, W.J. Wang, X.L. Chen, J. Liu, B. Song, L.B. Jiang, J.G. Guo, and J.Y. Cheng, ‘Catalyst-free synthesis of ZnO microrod arrays on SiC substrate and their tunable photoluminescence by erosion process’, Journal of Alloys and Compounds 509 (2011) 6942-6945.

[278]     M. He, Z.H. Zhang, X.L. Chen, M.H. Qiu, Y.K. Ji, and J.L. Xiu, ‘Luminescence Mechanism Study of a potential scintillation crystal YBa₃B₉O₁₈’, International Journal of Modern Physics B 25 (2011) 1637-1644.

[277]     T. Qian, X.P. Wang, W.C. Jin, P. Zhang, P. Richard, G. Xu, X. Dai, Z. Fang, J.G. Guo, X.L. Chen, and H. Ding, ‘Absence of a Holelike Fermi Surface for the Iron-Based K_0.8Fe_1.7Se₂ Superconductor Revealed by Angle-Resolved Photoemission Spectroscopy’, Physical Review Letters 106 (2011) 187001.

[276]     W.J. Wang, S.B. Zuo, H.Q. Bao, J. Wang, L.B. Jiang, and X. L Chen, ‘Effect of the seed crystallographic orientation on AlN bulk crystal growth by PVT method’, Crystal Research and Technology 46 (2011) 455-458.

[275]     J. Liu, X.L. Chen, W.J. Wang, Y. Liu, Q.S. Huang, and Z.P. Guo, ‘Self-assembly of [10-10] grown ZnO nanowhiskers with exposed reactive (0001) facets on hollow spheres and their enhanced gas sensitivity’, CrystEngComm 13 (2011) 3425-3431.

[274]     L. Zhao, D.X. Mou, S.Y. Liu, X.W. Jia, J.F. He, Y.Y. Peng, L. Yu, X. Liu, G.D. Liu, S.L. He, X.L. Dong, J. Zhang, J.B. He, D.M. Wang, G.F. Chen, J.G. Guo, X.L. Chen, X.Y. Wang, Q.J. Peng, Z.M. Wang, S.J. Zhang, F. Yang, Z.Y. Xu, C.T. Chen, and X.J. Zhou, ‘Common Fermi-surface topology and nodeless superconducting gap of K_0.68Fe_1.79Se₂ and (Tl_0.45K_0.34)Fe_1.84Se₂ superconductors revealed via angle-resolved photoemission’, Physical Review B 83 (2011) 140508.

[273]     J.J. Lin, L.W. Guo, Q.S. Huang, Y.P. Jia, K. Li, X.F. Lai, and X.L. Chen, ‘Anharmonic phonon effects in Raman spectra of unsupported vertical graphene sheets’, Physical Review B 83 (2011) 125430.

[272]     L.B. Jiang, S.B. Zuo, W.J. Wang, H. Li, S.F. Jin, S.C. Wang, and X.L. Chen, ‘Role of Ni in the controlled growth of single crystal AlN triangular microfibers: Morphology evolvement, growth kinetics and photoluminescence’, Journal of Crystal Growth 318 (2011) 1089-1094.

[271]     H. Li, X.L. Chen, B. Song, H.Q. Bao, and W.J. Wang, ‘Copper-doped AlN polycrystalline powders: A class of room-temperature ferromagnetic materials’, Solid State Communications 151 (2011) 499-502.

[270]     Y. Liu, G. Wang, S.C. Wang, J.H. Yang, L. Chen, X.B. Qin, B. Song, B.Y. Wang, and X.L. Chen, ‘Defect-Induced Magnetism in Neutron Irradiated 6H-SiC Single Crystals’, Physical Review Letters 106 (2011) 087205.

[269]     Q.S. Huang, G. Wang, L.W. Guo, Y.P. Jia, J.J. Lin, K. Li, W.J. Wang, and X.L. Chen, ‘Approaching the Intrinsic Electron Field-Emission of a Graphene Film Consisting of Quasi-Freestanding Graphene Strips’, Small 7 (2011) 450-454.

[268]     Q. Kuang, J.T. Xu, Y.M. Zhao, X.L. Chen, and L.Q. Chen, ‘Layered monodiphosphate Li₉V₃(P₂O₇)₃(PO₄)₂: A novel cathode material for lithium-ion batteries’, Electrochimica Acta 56 (2011) 2201-2205.

[267]     Q. Kuang, Z.P. Lin, Y.M. Zhao, X.L. Chen, and L.Q. Chen, ‘Lithium deintercalation behavior in Li-rich vanadium phosphate as a potential cathode for Li-ion batteries’, Journal of Materials Chemistry 21 (2011) 14760-14765.

[266]     J. Liu, Z.P. Guo, K.X. Zhu, W.J. Wang, C.F. Zhang, and X.L. Chen, ‘Highly porous metal oxide polycrystalline nanowire films with superior performance in gas sensors’, Journal of Materials Chemistry 21 (2011) 11412-11417.

[265]    J. Liu, Z.P. Guo, W.J. Wang, Q.S. Huang, K.X. Zhu, and X.L. Chen, ‘Heterogeneous ZnS hollow urchin-like hierarchical nanostructures and their structure-enhanced photocatalytic properties’, Nanoscale 3 (2011) 1470-1473.

[264]     G.M. Cai, X.M. Tao, L.M. Su, F. Zheng, D.Q. Yi, X.L. Chen, and Z.P. Jin, ‘Structure, thermal stability and properties of Li₃Sc(BO₃)₂’, Journal of Solid State Chemistry 184 (2011) 115-122.

[263]     S.F. Jin, G.M. Cai, W.Y. Wang, M. He, S.C. Wang, and X.L. Chen, ‘Stable oxoborate with edge-sharing BO₄ tetrahedra synthesized under ambient pressure’, Angewandte Chemie International Edition 49 (2010) 4967-4970.

[262]     J.G. Guo, S.F. Jin, G. Wang, S.C. Wang, K.X. Zhu, T.T. Zhou, M. He, and X.L. Chen, ‘Superconductivity in the iron selenide K_xFe₂Se₂ (0<x<1.0)’, Physical Review B 82 (2010) 180520(R).

[261]     G. Wang, and X.L. Chen, ‘Single-crystal growth: From new borates to industrial semiconductors’, Physica Status Solidi A 207 (2010) 2757-2768.

[260]     L.B. Jiang, H. Li, S.B. Zuo, H.Q. Bao, W.J. Wang, and X.L. Chen, ‘Temperature dependence of Raman scattering in Co-doped AlN whiskers’, Applied Physics A 100 (2010) 545-550.

[259]    J. Liu, W.J. Wang, Z.P. Guo, R. Zeng, S.X. Dou, and X.L. Chen, ‘Peashell-like nanostructure-a new kind of one-dimensional nanostructure: the case of magnesium oxide’, Chemical Communications 46 (2010) 3887-3889.

[258]     Q.S. Huang, X.L. Chen, J. Liu, W.J. Wang, G. Wang, W.Y. Wang, R. Yang, Y. Liu, and L.W. Guo, ‘Epitaxial graphene on 4H-SiC by pulsed electron irradiationw’, Chemical Communications 46 (2010) 4917-4919.

[257]    Q.S. Huang, L.W. Guo, W.J. Wang, G. Wang, W.Y. Wang, Y.P. Jia, J.J. Lin, K. Li, and X.L. Chen, ‘Raman Spectrum of Epitaxial Graphene on SiC (0001) by Pulsed Electron Irradiation’, Chinese Physics Letters 27 (2010) 046803.

[256]     J.G. Guo, G. Wang, S.F. Jin, K.X. Zhu, S.C. Wang, and X.L. Chen, ‘The itinerant state of carriers in pnictide NaCu₂P₂: Role of distortion in CuP4 tetrahedra’, Europhysics Letters 92 (2010) 57002.

[255]     B. Song, K.X. Zhu, J. Liu, J.K. Jian, J.C. Han, H.Q. Bao, H. Li, Y. Liu, H.B. Zuo, W.Y. Wang, G. Wang, X.H. Zhang, S.H. Meng, W.J. Wang, and X.L. Chen ‘Experimental observation of ferromagnetism evolution in nanostructured semiconductor InN’, Journal of Materials Chemistry 20 (2010) 9935-9940.

[254]     M. Li, D.F. Zhang, W.Y. Wang, G. Wang, and X.L. Chen. ‘The effects of grain boundary response and electrode contact response on the dielectric properties of CaCu₃Ti₄O₁₂’, Journal of Physics D: Applied Physics 43 (2010) 295405.

[253]     S.F. Jin, M. Li, J.G. Guo, W.Y. Wang, Y.P. Xu, and X.L. Chen, ‘Crystal structures of carbonates Cs₂Sr₂(CO₃)₃ and Rb₂Sr(CO₃)₃ from powder data’, Powder Diffraction 25 (2010) S1-S6.

[252]     M. Li, X.L. Chen, D.F. Zhang, W.Y. Wang, and W.J. Wang, ‘Humidity sensitive properties of pure and Mg-doped CaCu3Ti4O12’, Sensors and Actuators B 147 (2010) 447-452.

[251]     R. Yang, Q.S. Huang, X.L. Chen, G.Y. Zhang, and H.J. Gao, ‘Substrate doping effects on Raman spectrum of epitaxial graphene on SiC’, J. Appl. Phys. 107 (2010) 034305.

[250]     B. Song, X.L. Chen, J.C. Han, J.K. Jian, H.Q. Bao, H. Li, K.X. Zhu, W.Y. Wang, G. Wang, H.B. Zuo, X.H. Zhang, and S.H. Meng, ‘Structural and magnetic properties of (Al, Fe)-codoped SiC’, J. Phys. D: Appl. Phys. 43 (2010) 415002.

[249]     B. Song, X.L. Chen, J.C. Han, J.K. Jian, H. Li, H.Q. Bao, K.X. Zhu, H.B. Zuo, X.H. Zhang, W.Y. Wang, and S.H. Meng, ‘Structural and magnetic properties of Si_1-xCo_xC’, Solid State Communications 150 (2010) 1840-1844.

[248]     L.Y. Yang  W.J. Wang, B. Song, R. Wu, J. Li, Y.F. Sun, F. Shang, X.L. Chen, and J.K. Jian, ‘Novel route to scalable synthesis of II–VI semiconductor nanowires: Catalyst-assisted vacuum thermal evaporation’, Journal of Crystal Growth 312 (2010) 2852-2856.

[247]     T. H. Peng, Y. F. Lou, S. F. Jin, W. Y. Wang, W. J. Wang, G. Wang, and X. L. Chen, ‘Debye temperature of 4H-SiC determined by X-ray powder diffraction’, Powder Diffraction 24 (2009) 311-314.

[246]    B. Song, J.K. Jian, G.M. Cai, M. Lei, H.Q. Bao, H. Li, Y.P. Xu, W.Y. Wang, J.C. Han, and X.L. Chen, ‘Modified solid-state metathesis route to ternary lithium silicon nitrides: Li₂SiN₂’, Solid State Ionics 180 (2009) 29-35.

[245]     Gemei Cai, W.Y. Wang, M. Li, Y.F. Lou, Y.P. Sun, and X.L. Chen, ‘Phase relations of the Li₂O-Ta₂O₅-B₂O₃ and Li₂O-WO₃-B₂O₃ systems and promising nonlinear optical compounds in K₂O-Ta₂O₅-B₂O₃ system’, Materials Research Bulletin 44 (2009) 189-193.

[244]     H. Li, B. Song, H.Q. Bao, G. Wang, W.J. Wang, X.L. Chen, ‘Ferromagnetism of Mn-doped GaN polycrystalline powders’, Journal of Magnetism and Magnetic Materials 321 (2009) 222-225.

[243]     H.Q. Bao, X.L. Chen, H. Li, G.Wang, B. Song, W.J. Wang, ‘The sublimation growth of AlN fibers: transformations in morphology & fiber direction’, Applied Physics A 94 (2009) 173-177.

[242]     Ming He, G.M.Cai, W.J. Wang, W.Y. Wang, J.Liu, X.L. Chen, ‘Growth and luminescence properties of a novel crystal with large birefringence: ErBa₃B₉O₁₈’, Journal of Crystal Growth 311 (2009) 1234-1237.

[241]     Jun Liu, XiaoLong Chen, Wenjun Wang, Bo Song, and Qingsong Huang, ‘Secondary Facet-Selective Nucleation and Growth: Highly Oriented Straight SnO₂ Nanowire Arrays on Primary Microrods’, Crystal Growth & Design 9 (2009) 1757-1761.

[240]     J. Bubesh Babu, G. Madeswaran, X.L. Chen, R. Dhanasekaran, ‘Effect of oxygen vacancies on ferroelectric behavior of Na_1/2Bi_1/2TiO₃-BaTiO₃ single crystals’, Materials Science and Engineering B 156 (2009) 36-41.

[239]     Huiqiang Bao, Bo Song, Hui Li, Gang Wang, Wenjun Wang, Wanyan Wang, and XiaoLong Chen, ‘GaN Single Crystals: Growth Mechanism and Temperature-Modulated Growth Using Li₃N Flux’, Crystal Growth & Design 9 (2009) 611-615.

[238]     Wei Xiao-Dan, Cai Li-Yan, Lu Fa-Chun, Chen Xiao-Long, Chen Xue-Yuan, and Liu Quan-Lin, ‘Structure and luminescence of Ca₂Si₅N₈:Eu²⁺ phosphor for warm white light-emitting diodes’, Chinese Physics B 18 (2009) 3555-3562.

[237]     Bo Song, Huiqiang Bao, Hui Li, Ming Lei, Tonghua Peng, Jikang Jian, Jun Liu, Wanyan Wang, Wenjun Wang, and XiaoLong Chen, ‘Observation of Glassy Ferromagnetism in Al-Doped 4H-SiC’, Journal of American Chemical Society 131 (2009) 1376-1377.

[236]     T. H. Peng, H. Yang, J. K. Jian, W. J. Wang, W. Y. Wang, and X. L. Chen, ‘Factors affecting the formation of misoriented domains in 6H-SiC single crystals grown by PVT method’, Crystal Research Technology 44 (2009) 357-362.

[235]    B. Song, J. C. Han, J. K. Jian, H. Li, Y. C. Wang, H. Q. Bao, W. Y. Wang, H. B. Zuo, X. H. Zhang, S. H. Meng and X. L. Chen, ‘Experimental observation of defect-induced intrinsic ferromagnetismin III-V nitrides: The case of BN’, Physical Review B 80 (2009) 153203-1-4.

[234]     Bo Song, XiaoLong Chen, Jiecai Han, Jikang Jian, Wanyan Wang, Hongbo Zuo,Xinghong Zhang, and Songhe Meng, ‘Facile Route to Nitrides: Transformation from Single Element to Binary and Ternary Nitrides at Moderate Temperature through a New Modified Solid-State Metathesis’, Inorganic Chemistry 48 (2009) 10519-10527.

[233]     Shifeng Jin, Gemei Chai, Jun Liu, Wanyan Wang and XiaoLong Chen, ‘The centrosymmetric metal metaborate KCdB₃O₆’, Acta Crystallographica Section C 65 (2009) i42–i44.

[232]     Jun Liu, XiaoLong Chen, Wenjun Wang, Qingsong Huang, Gang Wang, Kaixing Zhu, Jiangang Guo, ‘Large scale synthesis of porous ZnO hollow structures with tunable diameters and shell thicknesses’, Materials Letters 63 (2009) 2221-2223.

[231]     G.M. Cai, M. Li, J. Liu, S.F. Jin, W.Y. Wang, F. Zheng, X.L. Chen, ‘Crystal structure and Eu³⁺/Tb³⁺ doped luminescent properties of a new borate Ba₃BiB₉O₁₈’, Materials Research Bulletin 44 (2009) 2211-2216.

[230]     Bo Song, Huiqiang Bao, Hui Li, Ming Lei, Jikang Jian, Jiecai Han, Xinghong Zhang, Songhe Meng, Wanyan Wang, and XiaoLong Chen, ‘Magnetic properties of Mn-doped 6H-SiC’, Applied Physics Letters 94 (2009) 102508-1-3.

[229]     B. Song, J.K. Jian, G. Wang, M. Lei, H.Q. Bao, and X.L. Chen, ‘Synthesis of N-deficient GaN and its enhanced dielectric responses’, Journal of Alloys and Compounds 460 (2008) 31-35.

[228]     B. Song, J.K. Jian, G. Wang, Z.H. Zhang, M. Lei, H.Q. Bao, and X.L. Chen, ‘Synthesis, optical and transport properties of single-crystal N-deficient InN nanowires’, Physica E-Low-dimensional Systems & Nanostructures 40 (2008) 579-584.

[227]     G. Wang, W.X. Yuan, J.K. Jian, H.Q. Bao, J.F. Wang, X.L. Chen, and J.K. Liang, ‘Growth of GaN single crystals by Ca₃N₂ flux’, Scripta Materialia 58 (2008) 319-322.

[226]     J. Bubesh Babu, G. Madeswaran, M. He, D.F. Zhang, X.L. Chen, R. Dhanasekaran, ‘Inhomogeneity issues in the growth of Na_1/2Bi_1/2TiO₃-BaTiO₃ single crystals’, Journal of Crystal Growth 310 (2008) 467-472.

[225]    Gemei Cai, X.L. Chen, W.Y. Wang, Y.F. Lou, J. Liu, J.T. Zhao, H.H. Chen, ‘A new promising scintillator Ba₃InB₉O₁₈’, Journal of Solid State Chemistry 181 (2008) 646-651.

[224]     H.Q. Bao, H. Li, G. Wang, B. Song, W.J. Wang, X.L. Chen, ‘Exploration of Ba₃N₂ flux for GaN single-crystal growth’, Journal of Crystal Growth 310 (2008) 2955-2959.

[223]     B. Song, J.K. Jian, H. Li, M. Lei, H.Q. Bao, X.L. Chen, G. Wang, ‘New experimental evidence for origin of ferromagnetism ordering in Fe-doped SiC’, Physica B-Condensed Matter 403 (2008) 2897-2901.

[222]    B. Song, S.W. Liu, J.K. Jian, M. Lei, X.J. Wang, H. Li, J.G. Yu, X.L. Chen, ‘Electrochemical properties of TiO₂ hollow microspheres from a template-free and green wet-chemical route’, Journal of Power Sources 180 (2008) 869-874.

[221]     Y.T. Song, W.C. Chen, X.L. Chen, ‘Ultrasonic field induced chiral symmetry breaking of NaClO₃ crystallization’, Crystal Growth & Design 8 (2008) 1448-1450.

[220]    Y.X. Du, M. Lei, X.L. Chen, D.F. Zhang, ‘Influence of 90 degrees domain switching on the physical properties of tetragonal barium titanate single crystals’, Physica B-Condensed Matter 403 (2008) 3018-3021.

[219]     J.K. Jian, C. Wang, M. Lei, Z.H. Zhang, T.M. Wang, X.L. Chen, ‘Quasi-horizontal GaN nanowire array network grown by sublimation sandwich technique’, Applied Surface Science 254 (2008) 6637-6641.

[218]    B. Song, J.K. Jian, H.Q. Bao, M. Lei, H. Li, G. Wang, Y.P. Xu and X.L. Chen, ‘Observation of spin-glass behavior in antiperovskite Mn₃GaN’, Applied Physics Letters 92 (2008) 192511.

[217]     H. Li, H.Q. Bao, G. Wang, B. Song, W. J. Wang, and X.L. Chen, ‘Growth of GaN single crystals by Li3N flux with Mn as addition’, Crystal Growth & Design 8 (2008) 2775-2779.

[216]     L. Wu, G. Roth, K. Sparta, and X.L. Chen, ‘The new pentaborate Na₃SrB₅O₁₀’, Acta Crystallographica Section C-Crystal Structure Communications 64 (2008) i53-i56.

[215]     M. Li, G.M. Cai, D.F. Zhang, W.Y. Wang, W.J. Wang, and X.L. Chen, ‘Enhanced dielectric responses in Mg-doped CaCu₃Ti₄O₁₂’, Journal of Applied Physics 104 (2008) 074107.

[214]     H. Li, H.Q. Bao, B. Song, W.J. Wang, X.L.Chen, L.J. He, and W.X. Yuan, ‘Ferromagnetic properties of Mn-doped AlN’, Physica B 403 (2008) 4096–4099.

[213]     H. Yang, T.H. Peng, W.J. Wang, W.Y. Wang, and X.L. Chen, ‘Interface metallization and electrical characterization of Ta–Pt multilayers on n-type SiC’, Applied Surface Science 255 (2008) 3121-3125.

[212]     H. Li, H.Q. Bao, B. Song, W.J. Wang, and X.L. Chen, ‘Observation of ferromagnetic ordering in Ni-doped AlN polycrystalline powders’, Solid State Communications 148 (2008) 406-409.

[211]     L.N. Ji, G.M. Cai, J.B. Li, J. Luo, J.K. Liang, J.Y. Zhang, Y.H. Liu, G.H. Rao, and X.L. Chen, ‘Crystal structure and thermal properties of compound K₂Zn₃(P₂O₇)₂’, Powder Diffraction 23 (2008) 317-322.

[210]     YinXiao Du, YuPing Sun, W. C. Chen, X. L. Chen and L. N. Zhu, ‘Influence of Mg²⁺ ions doping on the structure, morphology and phase transition of  LiIO₃ crystal’,  International Journal of Modern Physics B 21 (2007) 4495-4505.

[209]     Gemei Cai, Ming He, X. L. Chen, W. Y. Wang, Y. F. Lou, H. H. Chen and J. T. Zhao, ‘Crystal structure and luminescence properties of a novel promising phosphor Ba₃ScB₉O₁₈’, Powder Diffraction 22 (2007 ) 328-333.

[208]     Y. P. Sun, Yinxiao Du, W. Y. Wang, Ming He, G. M. Cai, and X. L. Chen, ‘Structure of a new compound KBaB₅O₉ and photoluminescence characteristics of KBaB₅O₉:Eu³⁺’,  Powder Diffraction 22 (2007) 292-294 .

[207]     H. Yang, T.H. Peng, W.J. Wang, D.F. Zhang, and X.L. Chen, ‘Ta/Ni/Ta multilayered ohmic contacts on n-type SiC’, Applied Surface Science 254 (2007) 527–531.

[206]    Ming He, YinXiao Du, W.Y. Wang, D.F. Zhang, and X.L. Chen, ‘Transmission coefficient associated with counterposition phenomenon in uniaxial crystal’, Physica B 399 (2007) 121-125.

[205]     He M，Wang WY, Sun YP, Xu YP, and Chen XL, ‘Growth and optical properties of YBa₃B₉O₁₈ : Ce crystals’, Journal Of Crystal Growth 307 (2007) 427-431.

[204]     Cai GM , Jian JK, Chen XL, Lei M, and Wang WY, ‘Regular hexagonal MoS₂ microflakes grown from MoO₃ precursor’, Applied physics A-Mateerials Science & Processing 89 (2007) 783-788 .

[203]     Zhao HZ, Hu J, and Chen XL, ‘Partially-crystallized carbon material obtained by the reducing reactions from alkalis carbonate and its electric performance’, Materials Letters 61 (2007) 4722-4724.

[202]     Zhao M, Chen XL, Wang WJ, Zhang ZH, and Xu YP, ‘Influence of phase transition of starting materials on growth of GaN nanomaterials by CVD’, Chinese Physics Letters 24 (2007) 2401-2404.

[201]     Song B, Jian JK, Wang G, Bao HQ, and Chen XL, ‘Temperature dependence of the A(1)(LO) and E-2 (high) phonons in hexagonal InN nanowires’, Journal of  Applied Physics 101 (2007) 124302.

[200]     Wu L, Zhang Y, Kong YF, Sun TQ, Xu JJ, and Chen XL, ‘Structure determination of novel orthoborate NaMgBO₃: A promising birefringent crystal’, Inorganic Chemistry 46 (2007) 5207-5211.

[199]     Jian JK, Zhang ZH, Sun YP, Lei M, Chen XL, Wang TM, and Wang C, ‘GaN nanorings: Another example of spontaneous polarization-induced nanostructure’, Journal Of Crystal Growth 303 (2007) 427-432.

[198]     Xu JQ, Chen XL, Zhao YM, Zou CY, Ding QW, and Jian JK, ‘Self-catalyst growth of EuB₆ nanowires and nanotubes’, Journal Of Crystal Growth 303 (2007) 466-471.

[197]     Wu L, Zhang Y, Chen XL, Kong YF, Sun TQ, Xu JJ, and Xu YP, ‘The Na₂O-SrO-B₂O₃ diagram in the B-rich part and the crystal structure of NaSrB₅O₉’, Journal of Solid State Chemistry 180 (2007) 1470-1475.

[196]     Wang G, Yuan WX, Wang JF, Zhao X, Jian JX, and Chen XL, ‘Thermodynamic assessment of the Ca-Ca₃N₂ system’, Materials Letters 61 (2007) 2266-2269.

[195]     Xu JQ , Chen XL , Zhao YM , Zou CY , and Ding QW, ‘Single-crystalline PrB₆ nanowires and their field-emission properties’, Nanotechnology18 (2007) 115621.

[194]     Babu JB, He M, Zhang DF, Chen XL, and Dhanasekaran R, ‘Enhancement of ferroelectric properties of Na_1/2Bi_1/2TiO₃-BaTiO₃ single crystals by Ce dopings’, Applied Physics Letters 90 (2007) 102901.

[193]     Song B, Jian JK, Wang G, Lei M, Xu YP, and Chen XL, ‘Facile and general route to nitrides by a modified solid-state metathesis pathway’, Chemistry of Materials 19 (2007) 1497-1502.

[192]     He M, Chen XL, Sun YP, Liu J, Zhao JT, and Duan CJ, ‘YBa₃B₉O₁₈: A promising scintillation crystal’, Crystal Growth & Design 7 (2007) 199-201.

[191]     Chen WC, and Chen XL, ‘Chiral symmetry breaking during growing process of NaClO₃ crystal under direct-current electric field’, Chinese Physics Letters 24 (2007) 252-255.

[190]     J.K. Jian , Cong Wang , Z.H. Zhang , X.L. Chen, L.H. Xu , and T.M. Wang, ‘Necktie-like ZnO nanobelts grown by a self-catalytic VLS process’, Materials Letters 60 (2006) 3809-3812.

[189]     Gang Wang, Jikang Jian, Wenxia Yuan, and XiaoLong Chen, ‘Growth of GaN single Crystal Using Ca-Li₃N Composite flux’, Crystal Growth & Design 6 (2006) 1157-1160.

[188]     Huaizhou Zhao, Ming Lei, XiaoLong Chen and Weihua Tang, ‘Facile route to metal nitrides through melamine and metal oxides’, Journal of Materials Chemistry 16 (2006) 4407-4412.

[187]     YinXiao Du, Ming He, X.L. Chen, W.Y. Wang, and D.F. Zhang, ‘Uniaxial Crystal Slabs as Amphoteric-Reflecting Media’, Physics Review B 73 (2006) 245110.

[186]     YinXiao Du, Yuping Sun, W.C. Chen, X.L. Chen, and D.F. Zhang, ‘Growth and Electrical Properties of Mg:α-LiIO₃ Crystal’, Journal of Crystal Growth 291  (2006) 424-427.

[185]     J.K. Jian, G. Wang, Cong Wang, W.X.Yuan, and X.L.Chen, ‘GaN single crystals grown under moderate nitrogen pressure by a new flux: Ca₃N₂’, Journal of Crystal Growth 291 (2006) 72-76.

[184]     H.Z. Zhao, L. Dai, M. Zhao, Y.P. Xu, and X.L. Chen, ‘A new catalyzed process to prepare large-scale carbon nanowires based on CVD method’, Journal of Alloys and Compounds 416 (2006) 315-318.

[183]     Y.P. Sun, Q.Z. Huang, L. Wu, M. He, and X.L. Chen, ‘A neutron powder investigation of the structure of KCaCO₃F at various temperatures’, Journal of Alloys and Compounds 417 (2006) 13-17.

[182]     L.N. Zhu, X.L. Chen, H. Yang, T.H. Peng, D.Q. Ni, and B.Q. Hu, ‘Effects of post-thermal treatment on quality of SiC grown by PVT method’, Chinese Physics Letters 23 (2006) 2273-2276.

[181]     M. Zhao, X.L. Chen, W.J. Wang, Y.J. Ma, Y.P. Xu, and H.Z. Zhao, ‘Self-catalyzed growth of magnesium oxide nanorods’, Materials Letters 60 (2006) 2017-2019.

[180]     L. Wu, X.L. Chen, Y.P. Xu, and Y.P. Sun, ‘Structure determination and relative properties of novel noncentrosym metric borates MM '(₄)(BO₃)(₃) (M = Na, M ' = Ca and M = K, M ' = Ca, Sr)’, Inorganic Chemistry 45 (2006) 3042-3047.

[179]     Gang Wang, Jikang Jian, Bo Song, XiaoLong Chen, Wenjun Wang, and Youting Song, ‘Bulk GaN single crystals: a reinvestigation of growth mechanism using Li₃N flux’, Applied Physics A: Materials Science & Processing 85 (2006) 169-172.

[178]     J.K. Jian, C. Wang, Z.H. Zhang, X.L. Chen, L.H. Xu, and T.M. Wang, ‘Necktie-lide ZnO nanobelts grown by a self-catalytic VLS process’, Materials Letters 60 (2006) 3809-3812.

[177]     J. Luo, X.R. Xing, R.B. Yu, Q.F. Xing, G.R. Liu, and D.F. Zhang, X.L. Chen, ‘Low-temperature synthesis and characterization of (Zn,Ni)TiO₃ ceramics by a modified sol-gel route’, Journal of Alloys and Compounds 420 (2006) 317-321.

[176]    L. Wu, X.L. Chen, Y. Zhang, Y.F. Kong, J.J. Xu, and Y.P. Xu, ‘Ab initio structure determination of novel borate NaSrBO₃’, Journal of Solid State Chemistry 179 (2006) 1219-1224 .

[175]     H.Z. Zhao, M. Lei, X.A. Yang, J.K. Jian, and X.L. Chen, ‘Route to GaN and VN assisted by carbothermal reduction process’, Journal of American Chemistry Society 127 (2005) 15722-15723.

[174]     X.L. Chen, M. He, Y.X. Du, W.Y. Wang, and D.F. Zhang, ‘Negative refraction: An intrinsic property of uniaxial crystals’, Physics Review B 72 (2005) 113111-4.

[173]     X.L. Chen, ‘Growth of bulk GaN single crystals by flux method’, Science Technology Advance Material 6 (2005) 766-771.

[172]     W.Y. Wang, X.L. Chen, D.F. Zhang, D.Q. Ni, and X. Wu, ‘Growth of lithium niobate crystals with a periodic domain structure by a modified zone melting method’, Journal of Crystal Growth 279 (2005) 363-368.

[171]     W.Y. Wang, X.L. Chen, D.Q. Ni, D.F. Zhang, and X. Wu, ‘Growth of near stoichiometric LiNbO₃ crystals by a modified zone melting method’, Journal of Alloys and Compounds 402 (2005) 224-226.

[170]     L. Wu, X.L. Chen, X.Z. Li, L. Dai, Y.P. Xu, and X. Zhao, ‘Synthesis and ab initio X-ray powder diffraction structure of the new alkali and alkali earth metal borate NaCa(BO₃)’,  Acta Crystal C 61 (2005) i32-i34.

[169]     L. Wu, X.L. Chen, H. Li, M. He, Y.P. Xu, and X.Z. Li, ‘Structure determination and relative properties of novel cubic borates MM'(₄)(BO₃)(₃) (M = Li, M' = Sr; M = Na, M' = Sr, Ba)’, Inorganic Chemistry 44 (2005) 6409-6414.

[168]     L.N. Zhu, H.Q. Li, B.Q. Hu, X. Wu, and X.L. Chen, ‘New types of defects in SiC grown by the PVT method’, Journal of Physics: Condensed Matter 17 (2005) L85-L91.

[167]     H.Z. Zhao, X.L. Chen, C.C. Jia, T. Zhou, X.H. Qu, J.K. Jian, Y.P. Xu, and T. Zhou, ‘A facile mechanochemical way to prepare g-C₃N₄’, Material Science and Engineering: B 122 (2005) 226-230.

[166]     M. Zhao, X.L. Chen, J.K. Jian, X.N. Zhang, H.Z. Zhao, and Y.P. Xu, ‘Growth and optical characterization of high-quality GaN nanobelts’, Journal of Crystal Growth 283 (2005) 418-424.

[165]     M. He, X.L. Chen, H. Okudear, and A. Simon, ‘(K_1-xNa_x)(₂)Al₂B₂O₇ with 0 £ x < 0.6: A promising nonlinear optical crystal’, Chemistry of Materials 17 (2005) 2193-2196.

[164]     M. He, H. Okudear, J. Fleig, A. Simon, and X.L. Chen, ‘The Al³⁺ stabilized phase Li_3-3xAl_xBO₃’, Journal of Solid State Chemistry 178 (2005) 680-687.

[163]     M.F. Yu, M.Z. Atashbar, S. Member, and X.L. Chen, ‘Mechanical and electrical characterization of beta-Ga₂O₃ nanostructures for sensing applications’, IEEE Sensors Journal 5 (2005) 20-25.

[162]     J. Luo, X.R. Xing, R.B. Yu, Q.F. Xing, D.F. Zhang, and X.L. Chen, ‘Synthesis and characterization of (Zn,Co)TiO₃ by modified low temperature preparing route’, Journal of Alloys and Compounds 402 (2005) 263-268.

[161]     W. Yang, L.S. Jia, X.L. Chen, and C. Wang, ‘Defects in La₂CuO₄ and La_1.86Sr_0.14CuO₄ single crystals’, Rare Metals 24 (2005) 71-75.

[160]     Huaizhou Zhao, XiaoLong Chen, Chengchang Jia, Ting Zhou, Xuanhui Qub,Jikang Jian, Yanping Xu, and Tang Zhou, ‘A facile mechanochemical way to prepare g-C₃N₄’,  Materials Science and Engineering B 122 (2005) 90–93.

[159]     Y.M. Wang, H.B. Wang, F.H. Li, L.S. Jia, and X.L. Chen, ‘Maximum entropy image deconvolution applied to structure determination for crystal Nd_1.85Ce_0.15CuO_4-δ’, Micron 36 (2005) 393-400.

[158]     Jun Chen, Xianran Xing, Ranbo Yu, Guirong Liu, Li Wu, and XiaoLong Chen, ‘Structural investigations on ferroelectric Pb_1-3/2xLa_xTiO₃ using the x-ray Rietveld method’, Journal of materials research 19 (2004) 3614-361.

[157]     M. Zhao, X.L. Chen, Y.J. Ma, J.K. Jian, and Y.P. Xu, ‘Bi₂O₃ nanosquaresheets grown on Si substrate’, Applied Physics A 78 (2004) 291-293.

[156]     L.S. Jia, W. Yang, X.L. Chen, and X.L. Yan, ‘Defects in Nd₂CuO₄ and Nd_1.815Ce_0.185CuO₄ single crystals’, Physica C 400 (2004) 117-121.

[155]     L. Wu, X.L. Chen, H. Li, M. He, L. Dai, X.Z. Li, and Y.P. Xu, ‘Structure determination of a new compound LiCaBO₃’, Journal of Solid State Chemistry 177 (2004) 1111-1116.

[154]    W.J. Wang, X.L. Chen, Y.T. Song, W.X. Yuan, Y.G. Cao, and X. Wu, ‘Assessment of Li-Ga-N ternary system and GaN single crystal growth’, Journal of Crystal Growth 264 (2004) 13-16.

[153]     D.Q. Ni, W.Y. Wang, D.F. Zhang, X. Wu, X.L. Chen, and K.Q. Lu, ‘Near-stoichiometric LiNbO₃ single-crystal growth by metal strip-heated zone melting technique’, Journal of Crystal Growth 263 (2004) 421-426.

[152]    H.Q. Li, X.L. Chen, D.Q. Ni, and X. Wu, ‘An analysis of seed graphitization for sublimation growth of SiC bulk crystal’, Diamond Related Materials 13 (2004) 151-156.

[151]     X.Z. Li, X.L. Chen, J.K. Jian, L. Wu, Y.P. Xu, and Y.G. Cao, ‘Phase relations in the Y₂O₃-BaO-B₂O₃ system’, Journal of Alloys and Compounds 365 (2004) 277-280.

[150]    L. Dai, X.L. Chen, X. Zhang, T. Zhou, and B. Hu, ‘Coaxial ZnO/SiO₂ nanocables fabricated by thermal evaporation/oxidation’, Applied Physics A 78 (2004) 557-559.

[149]     X.Z. Li, X.L. Chen, J.K. Jian, L. Wu, Y.P. Xu, and Y.G. Cao, ‘Thermal stability and crystal structure of β-Ba₃YB₃O₉’, Journal of Solid State Chemistry 177 (2004) 216-220.

[148]     Q.Y. Tu, X.L. Chen, B.K. Ma, Z.X. Zhao, and J.K. Liang, ‘Superconductivity and magnetism of La₂Cu_1-xZn_xO_4+δ chemically oxidized by NaClO’, Solid State Communications 129 (2004) 75-80.

[147]     Y.T. Song, X. Wu, W.J. Wang, W.X. Yuan, and X.L. Chen, ‘Thermal stability and electronic specific heat of GaN’, Journal of Alloys and Compounds 370 (2004) 65-68.

[146]     M. Zhao, X.L. Chen, X.N. Zhang, L. Dai, and Y.P. Xu, ‘Growth and morphologies of one-and three-dimensional MgO nanostructures’, Applied Physics A 79 (2004) 429-431.

[145]     L. Wu, C. Wang, X.L. Chen, X.Z. Li, Y.P. Xu, and Y.G. Cao, ‘Ab inito structure determination of new compound Li₄CaB₂O₆’, Journal of Solid State Chemistry 177 (2004) 1847-1851.

[144]     X.Z. Li, X.L. Chen, L. Wu, Y.G. Cao, T. Zhou, and Y.P. Xu, ‘Ba₃YB₃O₉: phase transition and crystal structure’, Journal of Alloys and Compounds 370 (2004) 53-58.

[143]     M. Zhao, X.L. Chen, X.N. Zhang, H. Li, H.Q. Li, and L. Wu, ‘Preparation and characterization of networked rectangular MgO nanostructures’, Chemistry Physics Letter 388 (2004) 7-11.

[142]     X.L. Chen, M. He, Y.P. Xu, H.Q. Li, and Q.Y. Tu, ‘KCaF (CO₃) from powder diffraction Data’, Acta Crystallographica, Section E 60 (2004) i50-i51.

[141]     J.Y. Li, and X.L. Chen, ‘Large-scale and catalyst-free synthesis of zinc nanotubes and nanowires’, Solid State Communications 131 (2004) 769-772.

[140]     J.K. Jian, X.L Chen, Q.Y. Tu, Y.P. Xu, L. Dai, and M. Zhao, ‘Preparation and optical properties of prism-shaped GaN nanorods’, Journal of  Physics Chemistry B 108 (2004) 12024-12026.

[139]     M. He, L. Kienle, A. Simon, X.L. Chen, and V. Duppel, ‘Re-examination of the crystal structure of Na₂Al₂B₂O₇: stacking faults and twinning’, Journal of Solid Chemistry 177 (2004) 3212-3218.

[138]     L.S. Jia, X.L. Chen, W. Yang, and X.L. Yan, ‘Growth and characterization of superconductive Nd_2-xCe_xCuO_4-y single crystals’, Cryst. Res. Tech., 39 (2004) 567-571.

[137]     X.Z. Li, C. Wang, X.L. Chen, H. Li, L.S. Jia, L. Wu, Y.X. Du, and Y.P. Xu ‘Syntheses, thermal stability and structure determination of the novel isostructural RBa₃B₉O₁₈ (R= Y, Pr, Nd, Sm, Eu, Gd, Tb, Dy, Ho, Er, Tm,Yb)’, Inorganic Chemistry 43 (2004) 8555-8560.

[136]     Z. Yang, X.L. Chen, J.K. Liang, M. He, and J.R. Chen, ‘The crystal structure of alpha-SrGaBO₄’, Crystal Research Technology 39 (2004) 634-642.

[135]     W.J. Wang, Y.T. Song, W.X. Yuan, Y.G. Cao, X. Wu, and X.L. Chen, ‘Bulk GaN single crystals: growth mechanism by using Li3N and Ga’, Applied Physics A 78 (2004) 29-31.

[134]     Y.T. Song, X.L. Chen, W.J. Wang, W.X. Yuan, Y.G. Cao, and X. Wu, ‘Preparation and characterization of bulk GaN crystals’, Journal of Crystal Growth 260 (2004) 327-330.

[133]    H.W. Ma, J.K. Liang, L. Wu, G.Y. Liu, G.H. Rao, and X.L. Chen, ‘Ab initio structure determination of new compound Ba₃(BO₃)(PO₄)’, Journal of Solid State Chemistry 177 (2004) 3454-3459.

[132]     G.B. Song, C.Q. Han, X.L. Chen, J.K. Liang, Q.L. Liu, Y.Q. Zhou, F.S. Liu, and G.H. Rao, ‘Subsolidus phase relations and crystal structure of compounds in the PrOx-CaO-CuO system’, Journal of Solid State Chemistry 177 (2004) 2394–2403.

[131]     Z.J. Li, X.L. Chen, L. Dai, H.J. Li, H.W. Liu, H.J. Gao, and Y.P. Xu, ‘GaN nanotweezers’, Applied Physics A 76 (2003) 115-118.

[130]     L.S. Jia, X.L. Yan, and X.L. Chen, ‘Growth of semiconducting Nd₂CuO₄ and as-grown superconductive Nd_1.85Ce_0.15CuO_4-δ single crystals’, Journal of Crystal Growth 254 (2003) 437-442.

[129]     C.Q. Han, G.B. Song, X.L. Chen, J.K. Liang, and G.H. Rao, ‘Subsolidus phase relations and crystal structures of R-Ca-Cu-O(R=Nd, Sm, Gd, Tm) systems’, Journal of Solid State Chemistry 173 (2003) 164-171.

[128]     W.Y.Wang, D.F.Zhang, and X. L. Chen, ‘Nonlinear electrical characteristics and dielectric properties of (Ca, Ta)-doped TiO₂ ceramics’, Journal of Materials Science 38 (2003) 2049-2054.

[127]     W.X. Yuan, W.J. Wang, Y.T. Song, and X.L. Chen, ‘Thermodynamic descriptions of the Ga–Li system’, Scripta Materialia 48 (2003) 1053-1059.

[126]    Shen R, Wang C, Wang TM, Dong C, Chen XL, and Liang JK, ‘Crystal structures of Dy-₂(WO₄)(₃) and GdY(WO₄)(₃)’,   Rare Metals 22 (2003) 49-54.

[125]     L. Dai, X.L. Chen, W.J. Wang, T. Zhou, and B.Q. Hu, ‘Growth and luminescence characterization of large-scale zinc oxide nanowires’, Journal of Physics: Condensed Matter 13 (2003) 2221-2226.

[124]     Z.J. Li, H.J. Li, X.L. Chen, A.L. Meng, K.Z. Li, Y.P. Xu, and L. Dai, ‘Large-scale synthesis of crystalline β-SiC nanowires’, Applied Physics A 76 (2003) 637–640 .

[123]     S.Y. Zhang, X. Wu, X.L. Chen, M. He, and Y.G. Cao, ‘Phase relations in the BaO-B₂O₃-TiO₂ system and the crystal structure of BaTi(BO₃)₂’, Material Research Bulletin 38 (2003) 783-788.

[122]     Y. Zhang, X.L. Chen, J.K. Liang, and T. Xu, ‘Phase relations of the system Li₂O-Gd₂O₃-B₂O₃ and structure of a new ternary compound’, Journal of Alloys and Compounds 348 (2003) 314-318.

[121]     L. Wu, X.L. Chen, Q.Y. Tu, M. He, Y. Zhang, and Y.P. Xu, ‘Phase relations in the system Li₂O-CaO-B₂O₃’, Journal of Alloys and Compounds 358 (2003) 23-28.

[120]    Y.C. Lan, X.L. Chen, and M. He, ‘Structure, magnetic susceptibility and resistivity properties of SrVO₃’, Journal of Alloys and Compounds 354 (2003) 95-98.

[119]    H.Q. Li, X.L. Chen, D.Q. Ni, and X. Wu, ‘Factors affecting the graphitization behavior of the powder source during seeded sublimation growth of SiC bulk crystal’, Journal of Crystal Growth 258 (2003) 100-105.

[118]     J.K. Jian, X.L. Chen, Y.J. Ma, and X.Z. Li, ‘Novel nanostructures: hole-patterned nanowires and nanotubes of silicon oxide’, Journal of Physics: Condensed Matter 15 (2003) 8177-8183.

[117]     W.Y. Wang, D.F. Zhang, T. Xu, Y.P. Xu, T. Zhou, B.Q. Hu, C.Y. Wang, L.S. Wu, and X.L. Chen, ‘Nonlinear electrical characteristics and dielectric properties of Ca, Ta-doped TiO₂ varistors’, Applied Physics A 76 (2003) 71-75.

[116]     J.K. Jian, X.L. Chen, W.J. Wang, L. Dai, and Y.P. Xu, ‘Growth and morphologies of large-scale SnO₂ nanowires, nanobelts and nanodendrites’, Applied Physics A 76 (2003) 291-294.

[115]     J.K. Jian, X.L. Chen, M. He, W.J. Wang, X.N. Zhang, and F. Shen, ‘Large-scale GaN nanobelts and nanowires grown from milled Ga₂O₃ powders’, Chemistry Physics Letter 368 (2003) 416-420.

[114]     Y.T. Song, W.J. Wang, W.X. Yuan, X. Wu, and X.L. Chen, ‘Bulk GaN single crystals: growth conditions by flux method’, Journal of Crystal Growth 247 (2003) 275-278.

[113]     L.S. Jia, X.L. Yan, J.F. Zhou, and X.L. Chen, ‘Effect of pulling rates on quality of La_2-xBa_xCuO₄ single crystal’, Physica C 385 (2003) 483-487.

[112]     W.J. Wang, W.X. Yuan, Y.T. Song, and X.L. Chen, ‘Thermodynamic calculation of the lithium-nitrogen system’, J. Alloys Compd., 352 (2003) 103-105.

[111]     L. Dai, X.L. Chen, J.K. Jian, W.J. Wang, T. Zhou, and B.Q. Hu, ‘Strong blue photoluminescence from aligned silica nanofibers’, Applied Physics A 76 (2003) 625-627.

[110]     Li ZJ, Li HJ, Chen XL, Li KZ, Cao YG, and Li JY, ‘Synthesis of low-dimensional nano-structural GaN’, Rare Metal Materials and Engineering 31 ( 2002) 321-324. 

[109]     Z.J. Li, H.J. Li, X.L. Chen, L. Li, Y.P. Xu, and K.Z. Li, ‘β-Ga₂O₃ nanowires on unpatterned and patterned MgO single crystal substrates’, Journal of Alloys and Compounds 345 (2002) 275–279.

[108]     L. Dai, X.L. Chen, X.N. Zhang, A.Z. Jin, T. Zhou, B.Q. Hu, and Z. Zhang, ‘Growth and optical characterization of Ga₂O₃ nanobelts and nanosheets’, Journal of Applied Physics 92 (2002) 1062-1064.

[107]     JianYe Li, XiaoLong Chen, Gang Zhang, and Jeong Yong Lee, ‘Synthesis and Structure of Ga₂O₃ Nanosheets’, Modern Physics Letters B16 (2002) 409-414.

[106]     L. Dai, X.L. Chen, T. Zhou, and B.Q. Hu, ‘Aligned silica nanofibres’, Journal of Physics: Condensed Matter 14 (2002) L473-L477.

[105]    Y.C. Lan, X.L. Chen, Z. Tao, A.Y. Xie, P.Z. Jiang, T. Xu, and Y.P. Xu, ‘X-ray power diffraction data and Rietveld refinement for a new iodate: (LiFe_1/3)(IO₃)₂’,  Powder Diffraction 17 (2002) 132-134.

[104]     Z. Yang, X.L. Chen, J.K. Liang, T. Zhou, and T. Xu, ‘Phase relations in the SrO-Ga₂O₃-B₂O₃ system’, Journal of Alloys and Compounds 340 (2002) 286-290.

[103]     Y.C. Lan, X.L. Chen, A.Y. Xie, P.Z. Jiang, and C.L. Chen, ‘Synthesis, thermal and magnetic properties of new metal iodate: (LiFe_1/3)(IO₃)₂’, Journal of Crystal Growth 240 (2002) 526-530.

[102]     Q.Y. Tu, X.L. Chen, B.K. Ma, Z.X. Zhao, J.Q. Li, and J.K. Liang, ‘Structural and superconducting properties of La₂CuO_4+δ chemically oxidized by NaClO’, Physica C 370 (2002) 94-100.

[101]     M. He, X.L. Chen, B.Q. Hu, T. Zhou, Y.P. Xu, and T.Xu, ‘The ternary system Li₂O-Al₂O₃-B₂O₃: Compounds and phase relations’, Journal of Solid State Chemistry 165 (2002) 187-192.

[100]     Z. Yang, J.K. Liang, X.L. Chen, and J.R. Chen, ‘Ab initio structure determination of a new compound, β-SrGaBO₄, from powder X-ray diffraction data’, Journal of Solid State Chemistry 165 (2002) 119-124.

[99] L. Wu, X.L. Chen, Q.Y. Tu, M. He, Y. Zhang, and Y.P. Xu, ‘Phase relations in the system Li₂O-MgO-B₂O₃’, Journal of Alloys and Compounds 333 (2002) 154-158.

[98] Y. Zhang, X.L. Chen, J.K. Liang, and T. Xu, ‘Synthesis and structure study of new rare earth sodium borates Na₃Ln(BO₃)₂ (Ln=Y. Gd)’, Journal of Alloys and Compounds 333 (2002) 72-75.

[97] M. He, X.L. Chen, V. Gramlidh, Ch. Baerlocher, T. Zhou, and B.Q. Hu, ‘Synthesis, structure, and thermal stability of Li₃AlB₂O₆’, Journal of Solid State Chemistry 163 (2002) 369-376.

[96] X.L. Chen, Q.Y. Tu, L. Dai, and Y.P. Xu, ‘A note on the AlB2 type structure’, Modern Physics Letters B 3 (2002) 73-77.

[95] H. Li, J.Y. Li, M. He, X.L. Chen, and Z. Zhang, ‘Fabrication of bamboo-shaped GaN nanorods’， Applied Physics A 74 (2002) 561–562.

[94] Liang JK, Liu QL, Huang F, Rao GH, and Chen XL, ‘Stabilization effects of third element on CaCu₅ type derivatives of rare-earth transition-metal intermetallics’, Progress in Natural Science 12 (2002) 81-90. 

[93] Liang JK, Chen XL, Liu QL, and Rao GH, ‘Structures of rare earth-transition metal rich compounds derived from CaCu₅ type’, Progress in Natural Science  12 (2002) 1-9.

[92] Q.Y. Tu, X.L. Chen, B.K. Ma, Z.X. Zhao, Y.C. Lan, and J.K. Liang, ‘Superconductivity at 45 K in La₂CuO_4+d oxidized by NaClO’, Applied Physics A 74 (2002) 79-82.

[91] Zhi-Feng Wei, Xiao-Long Chen, Guang-Can Che, Fu-Ming Wang, Wen-Chao Li, and Meng He, ‘Debye temperature of the MgCNi₃ superconductor’, Chinese Physics Letters 19 (2002) 249-251.

[90] W.Y. Wang, D.F. Zhang, T. Xu, X.F. Li, T. Zhou, and X.L. Chen, ‘Nonlinear electrical behavior and dielectric properties of (Ca, Ta)-deped TiO₂ ceramics’, Journal of Alloys and Compounds 335 (2002) 210-215.

[89] Z.J. Li, X.L. Chen, H.J. Li, and Y.P. Xu, ‘Regular arrays of GaN nanorods’, Journal of Crystal Growth 236 (2002) 71-76.

[88] X.L. Yan, J.F. Zhou, X.J. Niu, X.L. Chen, Q.Y. Tu, and X. Wu, ‘Crystal growth of La₂CuO₄ and La_2-xBa_xCuO₄ by the traveling-solvent floating zone method’, Journal of Crystal Growth 242 (2002) 161-166..

[87] L. Dai, X.L. Chen, J.K. Jian, M. He, T. Zhou, and B.Q. Hu, ‘Fabrication and characterization of In₂O₃ nanowires’, Applied Physics A 75 (2002) 687-689.

[86] J.K. Jian, X.L. Chen, T. Xu, Y.P. Xu, L. Dai, and M. He, ‘Synthesis, morphologies and Raman-scattering spectra of crystalline stannic oxide nanowires’, Applied Physics A 75 (2002) 695-697.

[85] W.Y. Wang, D.F. Zhang, T. Xu, X.F. Li, T. Zhou, and X.L. Chen, ‘Effect of temperature on nonlinear electrical behavior and dielectric properties of (Ca, Ta)-doped TiO₂ ceramics’, Materials Research Bulletin 37 (2002) 1197-1206.

[84] W.Y. Wang, D.F. Zhang, T. Xu, T. Zhou, and X.L. Chen, ‘Nonlinear electrical and dielectric properties of (Ca, Ta)-doped TiO₂ varistors’, Physica Status Solidi a 194 (2002) 118-128.

[83] Y. Zhang, J.K. Liang, X.L. Chen, M. He, and T. Xu, ‘A structural Study of Ca₃La₃(BO₃)₅’, Journal of Alloys and Compounds 327 (2001) 96-99.

[82] Y. Zhang, X.L. Chen, J.K. Liang, Y.G. Cao, and T.Xu, ‘Phase relations in the system La₂O₃-CaO-Ba₂O₃’, Journal of Alloys and Compounds 315 (2001) 198-202.

[81] Y. Zhang, X.L. Chen, J.K. Liang, T. Xu, and Y.P. Xu, ‘Phase relations in the system Y₂O₃-CaO-Ba₂O₃’, Journal of Alloys and Compounds 327 (2001) 132-135.

[80] M. He, H. Li, X.L. Chen, Y.P. Xu, and T. Xu, ‘Li₂AlB₅O₁₀’, Acta Crystallographica C 57 (2001) 1010-1011.

[79] M. He, X.L. Chen, T. Zhou, B.Q. Hu, Y.P. Xu, and T. Xu, ‘Crystal structure and infrared spectra of Na₂Al₂B₂O₇’, Journal of Alloys and Compounds 327 (2001) 210-214.

[78] X.L. Chen, Q.Y. Tu, M. He, L. Dai, and L. Wu, ‘The bond ionicity of MB₂ (M=Mg, Ti, V, Cr, Mn, Zr, Hf, Ta, Al, and Y)’, Journal of Physics: Condensed Matter 13 (2001) L723-L727.

[77] Y.G. Cao, X.L. Chen, Y.C. Lan, J.Y. Li, Y. Zhang, Z. Yang, and J.K. Liang, ‘Synthesis and Raman characteristics of hexagonal Al_xGa_1-xN alloy nanocrystalline solids through ammonothermal routes’, Applied Physics A 72 (2001) 125-127.

[76] Z.F. Wei, X.L. Chen, F.M. Wang, W.C. Li, M. He, and Y. Zhang, ‘Phase relations in ternary system SrO-TiO₂-B₂O₃’, Journal of Alloys and Compounds 327 (2001) L10-L13.

[75] X.L. Chen, J.Y. Li, Y.C. Lan, and Y.G. Cao, ‘Morphological stability of a nanowire during growth process’, Modern Physics Letters B 15 (2001) 27-31.

[74] B.Q. Hu, X.M. Wang, T. Zhou, Z.Y. Zhao, X. Wu, and X.L. Chen, ‘Transmittance and refractive index of the lanthanum strontium aluminium tantalum oxide crystal’, Chinese Physics Letters 18 (2001) 278-279.

[73] M. He, X.L. Chen, and H. Li, ‘Ab inito structure determination of LiAlB₂O₅ from powder diffraction data’, Journal of Solid State Chemistry 155 (2001) 181-184.

[72] X.L. Chen, Y.C. Lan, J.Y. Li, Y.G. Cao, and M. He, ‘Radial growth dynamics of nanowires’, Journal of Crystal Growth 222 (2001) 586-590.

[71] J.Y. Li, X.L. Chen, Z.Y. Qiao, Y.G. Cao, and Y.C. Lan, ‘Photoluminescence spectrum of straight GaN nanowires’, Journal of Material Science Letters 20 (2001) 757-758.

[70] J.Y. Li, X.L. Chen, H. Li, M. He, and Z.Y. Qiao, ‘Fabrication of zinc oxide nanorods’, Journal of Crystal Growth 233 (2001) 5-7.

[69] J.Y. Li, X.L. Chen, Z.F. Wei, and Z.Y. Qiao, ‘Morphologies of ZnO Nanorods’, Chinese Physics Letters 18 (2001) 1527-1528.

[68] J.Y. Li, X.L. Chen, Z.Y. Qiao, M. He, and H. Li, ‘Large-scale synthesis of single-crystalline β-Ga₂O₃ nanoribbons, nanosheets and nanowires’, Journal of Physics: Condensed Matter 13 (2001) L937-941.

[67] Z. Yang, X.L. Chen, J.K. Liang, Y.C. Lan, and T. Xu, ‘Phase relations in the MgO-Ga₂O₃-B₂O₃ system and the crystal structure of MgGaBO₄’, Journal of Alloys and Compounds 319 (2001) 247-252.

[66] Z. Yang, X.L. Chen, J.K. Liang, T. Xu, and Y.P. Xu, ‘Synthesis and crystal structure of a new compound: CaGaBO₄’, Journal of Alloys and Compounds 327 (2001) 215-219.

[65] B.Q. Hu, Y.Z. Zhang, X. Wu, and X.L. Chen, ‘Defects in large single crystals Nd:YVO₄’, Journal of Crystal Growth 226 (2001) 511-516.

[64] Z.J. Li, X.L. Chen, H.J. Li, Q.Y. Tu, Z. Yang, Y.P. Xu, and B.Q. Hu, ‘Synthesis and Raman scattering of GaN nanorings, nanoribbons and nanowires’, Applied Physics A 72 (2001) 629-632.

[63] Q.Y. Tu, X.L. Chen, B.K. Ma, Z.X. Zhao,Y.P. Xu, and B.Q. Hu, ‘Study on the structure and superconductivity of La₂CuO_4+δ chemically oxidized by NaClO at 50 oC’, Superconductivity Science Technology 14 (2001) 517-521.

[62] W.Y. Wang, Y.P. Xu, D.F. Zhang, and X.L. Chen, ‘Synthesis and dielectric properties of cubic GaN nanoparticles’, Materials Research Bulletin 36 (2001) 2155-2162.

[61] Y.P. Xu, W.Y. Wang, D.F. Zhang, and X.L. Chen, ‘Dielectric properties of GaN nanoparticles’, Journal of Material Science 15 (2001) 4401-4403.

[60] Z.F. Wei, G.C. Che, F.M. Wang, W.C. Li, M. He, and X.L. Chen, ‘Debye temperature of MgB₂’, Modern Physics Letters B 15 (2001) 1109-1115.

[59] Q.Y. Tu, B.K. Ma, X.L. Chen, Y.C. Lan, Y.X. Xu, J.K. Liang, Z.X. Zhao and J.Q. Li, ‘Structural and Superconducting Properties of  La₂CuO_4+δ Oxidized By KMnO₄ Under Hydrothermal Conditions’, Modern Physics Letters B15 (2001) 1171-1179.

[58] Li JY, Chen XL, Qiao ZY, Cao YG, and Li H, ‘Synthesis of GaN nanotubes’, Journal of  Materials Science Letters 20 (2001) 1987-1988. 

[57] H.H. Wang, D.F. Cui, Y.L. Zhou, Z.H. Chen, F. Chen, T. Zhao,H.B. Lu, G.Z. Yang, M.C. Xu, Y.C. Lan, X.L. Chen, H.J. Qian, and F.Q. Liu, ‘Growth and characterization of SrMoO₃ thin films’, Journal of Crystal Growth 226 (2001) 261-266.

[56] H.H. Wang, G.Z. Yang, D.F. Cui, H.B. Lu, T.Zhao, F.Chen, Y.L. Zhou, and Z.H. Chen, Y.C. Lan, Y. Ding, L. Chen, X.L. Chen, and J.K. Liang, ‘Epitaxial growth and electric characteristics of SrMoO₃ thin films’, Journal of Vacuum Science & Technology A  19 (2001) 930-933.

[55] C.Q. Han, Y. Gao, X.L. Chen, J.K. Liang, and G.H. Rao, ‘The ternary system Gd₂O₃-SrO–CuO: compounds and phase relations’, Journal of Alloys and Compounds 321 (2001) 54-59.

[54] Jianye Li, Zhiyu Qiao, XiaoLong Chen, Yongge Cao, and Meng He, ‘Gallium nitride nano-ribbon rings’, Journal of physics: Condensed matter 13 (2001) L285–L289.

[53] C.Q. Han, X.L. Chen, J.K. Liang, Q.L. Liu, and G.H. Rao, ‘The Ternary System Eu₂O₃-SrO-CuO: Compounds and Phase Relations’, Journal of Solid State Chemistry 156 (2001)  247-250.

[52] C.Q. Han, X.L. Chen, J.K. Liang, Q.L. Liu, and G.H. Rao, ‘The ternary system Sm₂O₃–SrO–CuO: compounds and phase relations’, Journal of Alloys and Compounds 314 (2001) 301–304.

[51] C.Q. Han, X.L. Chen, J.K. Liang, Q.L. Liu, Y. Chen, and G.H. Rao, ‘The ternary system Tm₂O₃-SrO–CuO: compounds and phase relations’, Journal of Alloys and Compounds 309 (2000) 95–99.

[50] Q.L. Liu, J.J. Nan, J.K. Liang, F. Huang, Y. Chen, G.H. Rao, and X.L. Chen, ‘Subsolidus phase relations in the Co-rich region of the La–Co–Ti system’ , Journal of Alloys and Compounds 307 (2000) 212–214.

[49] Yi Chen, X. Li, X.L. Chen, J.K. Liang, G.H. Rao, and Q.L. Liu, ‘Phase relation in the system Sm–Co–B’, Journal of Alloys and Compounds 305 (2000) 216–218.

[48] G Y Huo, G H Rao, Z Y Qiao, Q L Liu, X L Chen, J K Liang and B G Shen, ‘Crystal structure and magnetic properties of Gd₃(Fe_1−x−yCo_yTi_x)₂₉ compounds’, Journal of  Physics: Condensed Matter 12 (2000) 1161–1170.

[47] Yi. Chen, X. Li, X.L. Chen, J.K. Liang, G.H. Rao, B.G. Shen, Q.L. Liu, L.P. Jin, and M.Z. Wang, ‘Phase Relation, Crystal Structures, and Magnetic Properties of Nd-Co-B Borides’, Chemistry Material 12(2000) 1240-1247.

[46] F Huang, J K Liang, Q L Liu, X L Chen, and Y Chen, ‘Structure and magnetic properties of intermetallic compounds (Gd_1−xR_x)₃Fe₂₈Nb (R = Ce, Nd, Sm)’, Journal of  Physics D: Applied Physics 33 (2000) 780–783.

[45] Y.C. Lan, X.L. Chen, G.C. Che, Y.G. Cao, and Q.Y. Tu, ‘Hydrothermal oxidation: a new chemical oxidation method to dope oxygen in La₂CuO_4+δ’, Superconductor Science Technology 13 (2000) 1415-1418.

[44] Y.C. Lan, X.L. Chen, J.K. Huang, G.C. Che, G.D. Liu, Y.G. Cao, Y.P. Xu, T. Xu, and J.Y. Li, ‘Structural and superconducting properties of chemically oxidized La₂CuO_4+y under hydrothermal conditions’, Physica C, 336 (2000) 151-156.

[43] J.Y. Li, X.L. Chen, Z.Y. Qiao, Y.G. Cao, M. He, and T. Xu, ‘Synthesis of aligned GaN nanoiwre quasi-arrays’, Applied Physics A 71 (2000) 349-350.

[42] X.L. Chen, J.Y. Li, Y.G. Cao, Y.C. Lan, H. Li, M. He, C.Y. Wang, Z. Zhang, and Z.Y. Qiao, ‘Straight and smooth GaN nanowires’, Advanced Materials 12 (2000) 1432-1434.

[41] Y.C. Lan, X.L. Chen, Y.P. Xu, Y.G. Cao, and F. Huang, ‘Syntheses and structure of nanocrystalline gallium nitride obtained from ammonothermal method using lithium metal as mineralizator’, Material Research Bulletin 35 (2000) 2325-2330.

[40] Y.C. Lan, X.L. Chen, Y.G. Cao, Y.P. Xu, T. Xu, J.Y. Li, Z. Tao, and J.K. Liang, ‘Morpholgy  of GaN in ammonia’, Journal of Material Science Letters19 (2000) 2215-2217.

[39] J.Y. Li, Z.Y. Qiao, X.L. Chen, L. Chen, Y.G. Cao, M. He, H. Li, Z.M. Cao, and Z. Zhang, ‘Sythesis of b-Ga₂O₃ nanorods’, Journal of Alloys and Compounds 306 (2000) 300-302.

[38] J.Y. Li, Z.Y. Qiao, X.L. Chen, Y.G. Cao, Y.C. Lan, and C.Y. Wang, ‘Morphologies of GaN one-dimensional materials’, Applied Physics A 71 (2000) 587-588.

[37] Y.G. Cao, X.L. Chen, Y.C. Lan, J.K. Liang, Y.P. Xu, T. Xu, J.Y. Li, Q.L. Liu, and K.Q. Lu, ‘Red emission from GaN nanocrystalline solids’, Modern Physics Letters B 14 (2000) 583-588.

[36] J.Y. Li, X.L. Chen, Y.G. Cao, Z.Y. Qiao, and Y.C. Lan, ‘Raman scattering spectrum of GaN straight nanowires’,  Applied Physics A 71 (2000) 345-346.

[35] Y.G. Cao, X.L. Chen, Y.C. Lan, J.Y. Li, Y.P. Xu, T. Xu, and J.K. Liang, ‘Synthesis and photoluminescence characteristics of AlN nanocrystalline solids’, Applied Physics A 71 (2000) 351-352.

[34] J.Y. Li*, X.L. Chen, Z.Y. Qiao, Y.G. Cao, and Y.C. Lan, ‘Formation of GaN nanorods by a sublimation method’, Journal of Crystal Growth 213 (2000) 408-410.

[33] Y.G. Cao*, X.L. Chen, J.Y. Li, Y.C. Lan, and J.K. Liang, ‘Observation of quantum-confinement effect with GaN nanoparticles synthesized through a new gas reaction route’, Applied Physics A 71 (2000) 229-231.

[32] Y.G. Cao*, X.L. Chen, Y.C. Lan, Y.P. Xu, T. Xu, J.Y. Li, Q.L. Liu, K.Q. Lu, and J.K. Liang, ‘A new method for synthesis of amorphous carbon nitride powders’, Applied Physics A 71 (2000) 465-467.

[31] Y.C. Lan, X.L. Chen*, and J.Q. Li, ‘Structure of Bi₂Nd₄O₉ monoclinic Phase’, Solid State Chemistry 153 (2000) 30-33.

[30] Y.G. Cao*, X.L. Chen, Y.C.  Lan, J.Y. Li, Y.P. Xu, T. Xu, Q.L. Liu, and J.K. Liang, ‘Blue emission and Raman scattering spectrum from AlN nanocrystalline powders’, Journal of Crystal Growth 213 (2000) 198-202.

[29] X.L. Chen*, Y.G. Cao, Y.C. Lan, Y.P. Xu, K.Q. Lu, P.Z. Jiang, T. Xu, Z.G. Bai, L.D. Sun, Y.D. Yu, and J.K. Liang, ‘Synthesis and structure of nanocrystal-assembled bulk GaN’, Journal of Crystal Growth 209 (2000) 208-212.

[28] Y.G. Cao*, X.L. Chen, Y.C. Lan, Y.P. Xu, T. Xu, and J.K. Liang, ‘Synthesis, Raman scattering and infrared spectra of a new condensed form of GaN nanophase material’, Journal of  Material Research 15 (2000)267-269.

[27] Y.C. Lan*, X.L. Chen, Y.G. Cao, Y.P. Xu, L.D. Xun, T. Xu, and J.K. Liang, ‘Low-temperature synthesis and photoluminescence of AlN’, Journal of Crystal Growth 207 (1999) 247-250.

[26] X.L. Chen*, J.K. Liang, Y.P. Xu, T. Xu, P.Z. Jiang, Y.D. Yu, and K.Q. Lu, ‘Structure and debye temperature of wurtzite GaN’, Modern Physics Letters B 13 (1999) 285-290.

[25] X.L. Chen*, and W. Eysel, ‘Subsolidus phase relations in La₂O₃-Bi₂O₃-CuO’, Powder Diffraction 14 (1999) 274-275.

[24] Y. Chen*, Q.L. Liu, J.K. Liang, X.L. Chen, B.G. Shen, and F. Huang, ‘Crystallographic and magnetic properties of intermetallic compound Nd₃Co₁₃B₂’, Applied Physics Letters 74 (1999) 856-858.

[23] X.L. Chen*, J.K. Liang, Y.C. Lan, Y. Liu, Y. Ma, G.C. Che, G.D. Liu, X.R. Xing, and Z.Y. Qiao, ‘Structural transformation of Bi₂CuO₄ induced by mechanical deformation’, Journal of Applied Physics 85 (1999) 3155-3158.

[22] X.L. Chen*, Y.C. Lan, J.K. Liang, X.R. Cheng, Y.P. Xu, T. Xu, P.Z. Jiang, and K.Q. Lu, ‘Structure and heat capacity of wurtzite GaN from 113 to 1073 K’, Chinese Physics Letters 16 (1999) 107-108.

[21] X.L. Chen*, F.F. Zhang, Y.M. Shen, J.K. Liang, W.H. Tang, and Q.Y. Tu, ‘Phase relation in the system BiO_1.5-Yb_1.5-CuO’, Journal of Solid State Chemistry 139 (1998) 398-403.

[20] X.L. Chen, L. Bauernfeid, and H.F. Braun, ‘La_0.5Na_0.5RuO₃: Structure and electronic Properties’, Physics Review B 57 (1997) 6888-6895.

[19] X.L. Chen, and W. Eysel*, ‘The Stabilization of β-Bi₂O₃ by CeO₂’, Journal of Solid State Chemistry 127 (1996) 128-130.

[18] X.L. Chen, and W. Eysel*, J.Q. Li, ‘BiLa₂O_4.5- a new monoclinic phase in the Bi₂O₃-La₂O₃ system’, Journal of Solid State Chemistry 124 (1996) 300-304.

[17] XiaoLong Chen, Jingkui Liang*, Weihua Tang, Cong Wang, and Guanghui Rao, ‘Superconductivity at 55K in La_0.7Sr_1.3Cu(O,F)_4+δ with reduced CuO₂ sheets and apical anions’, Physical Review B 52(1995) 16233-16236.

[16] X.L. Chen, J.K. Liang, W.H. Tang, C. Wang, and G.H. Rao, ‘Superconductivity at 55K in La_0.7Sr_1.3Cu(O,F)_4+δ with reduced CuO₂ sheets and apical anions’, Physics Review B  52 (1995) 233-236.

[15] X.L. Chen*, J.K. Liang, Y. Wang, F. Wu, and G.H. Rao, ‘Superconductivity in Y_0.6Pr_0.4Ba_2-xSr_xCu₃O_7-δ’, Physics Review B 51 (1995) 16444-16447.

[14] X.L. Chen*, J.K. Liang, and C. Wang, ‘The role of high angle diffraction data in the Rietveld refinement’, Acta Sinica Physica 4 (1995) 259-267.

[13] J.R. Min*, J.K. Liang, X.L. Chen, C. Wang, G.H. Rao, and C. Dong, ‘Preferential occupancy and composition-driven c-axis variation in (Pb_0.5Cd_0.5)(Sr,Y,Ca)₃Cu₂O₇’,  Physics Review B 51 (1995) 9261-9270.

[12] J.K. Liang*,  X.L. Chen, J.R. Min, Z. Cai, S.Q. Zhao, X.R. Cheng, Y.L. Zhang, and G.H. Rao, ‘Crystallization mechanism of dehydrated amorphous LiBO₂’, Physics Review B 51 (1995) 756-762.

[11] X.L. Chen*, J.K. Liang, J.R. Min, J.Q. Li, and G.H. Rao, ‘Phase separation and oxygen variation in Pr-doped Bi₂Sr₂CaCu₂O_8+δ’,  Physics Review B 50 (1994) 3431-3434.

[10] X.L. Chen*, J.K. Liang, C. Wang, W.X. Yuan, X.R. Xing, and Z.Y. Qiao, ‘Oxygen analysis on high Tc cuprates: an alternative method for determination of solid solution limits’, Journal of Alloys and Compounds 209 (1994) 65-70.

[9]  X.L. Chen*, J.K. Liang, C. Wang, G.H. Rao, X.R. Xing, Z.H. Song, and Z.Y. Qiao, ‘The Nd₂O₃-SrO-CuO system: phase relations and crystal structure’,  Journal of Alloys and Compounds 205 (1994) 101-106.

[8]  X.L. Chen*, Y.Y. Ji, J.K. Liang, X.R Cheng, J. Li, and S.S. Xie, ‘The crystal structure and specific heat of Yb₂Cu₂O₅’, Journal of Alloys and Compounds 191 (1993) 297-300.

[7]  J.K. Liang*, and X.L. Chen, ‘The influence of Pr on the superconductivity of R-123 compounds’, Science in China A 36 (1993) 833-841.

[6] X.L. Chen*, J.K. Liang, S.S. Xie, Z.Y. Qiao, X.S. Tong, and X.R. Xing, ‘Superconductivity and magnetic properties of Pr_0.2Yb_0.8-xLa_xBa₂Cu₃O_7-δ: Effect of ionic radii on hybridization’, Z. Physyk. B: Condens. Matter, 88 (1992) 1-4.

[5]  X.L. Chen, J.K. Liang, X.S. Tong, S.S. Xie, and Z.Y. Qiao, ‘Determination of oxygen contents of high Tc superconductors by iodemetric titration’, Journal of Rare Earths 16 (1992) 93-98.

[4] X.L. Chen*, J.K. Liang, Z. Chen, Z.Y. Qiao, S.S. Xie, G.H. Rao, and Z.Y. Shen, ‘Thermodynamic calculation of atomspheric and high pressure (P=2500atm) phase diagram of LiIO₃-NaIO₃ binary system’, Calphad 15 (1991) 185-194.

[3] X.L. Chen*, J.K. Liang, S.S. Xie, and Z.Q. Qiao, ‘Thermodynamic treatment of the Nd₂O₃-CuO binary system’, Journal of the Less-Common Metals 159 (1991) 147-152.

[2] J.K. Liang*, X.L. Chen, S.L. Wu, J. Zhao, Y.L. Zhang, and S.S. Xie, ‘The phase relation and crystal structure of the ternary compounds of the Yb₂O₃-BaO-CuO systems’,  Solid State Communications 74 (1990) 509-516.

[1]  J.K. Liang*, X.L. Chen, Y.L. Zhang, S.S. Xie, J.Q. Huang, and Y.M. Ni, ‘The crystal structure and superconductivity of TlSr₂(Ca,La)Cu₂O₇’, Physica Status Solidi (a)  114 (1989) 651-658.