物理与电子科学学院

学术成果

主要论文：

[57] Yucheng Kan, Jianquan Liu, Rui Chen, Yuan Liu, Hongru Wang, Mingyue Long, Bobo Tian,Junhao Chu,Ye Chen*, and Lin Sun*， Enhanced ferroelectric photovoltaic performance of Bi2FeCrO6 thin films for neuromorphic computing applications，Appl. Phys. Lett. 124, 112906 (2024).

[56] Jiaqi Chen, Bin Xu, Hai Ma, Ruijuan Qi, Wei Bai, Fangyu Yue, Pingxiong Yang, Ye Chen,* Junhao Chu, and Lin Sun*, Element Diffusion Induced Carrier Transport Enhancement in High-Performance CZTSSe Self-Powered Photodetector,Small,2307347 (2024).

[55] Jianjun Lin,Yuang Chen ,Hongru Wang,Bobo Tian,Ye Chen,Zhiyong Zhou,Fangyu Yue ,Rong Huang,* Chun-Gang Duan,Junhao Chu and Lin Sun *, Unveiling the Anomalous Photovoltaic Effect of Ferroelectric Domain Walls in BiFeO3 Thin Films,Phys.Rev.Appl.19,024050 (2023).

[54] Bin Xu, Xiatong Qin, Jianjun Lin, Jiaqi Chen, Hanyu Tong, Ruijuan Qi, Fangyu Yue,Ye Chen, Pingxiong Yang, Junhao Chu,* and Lin Sun*,Positive Role of Inhibiting CZTSSe Decomposition on Intrinsic Defects and Interface Recombination of 12.03% Efficient Kesterite Solar Cells,Solar RRL 2200256（2022）.

[53] Xiatong Qin, Bin Xu, Jianjun Lin, Jiaqi Chen, Hanyu Tong, Ye Chen, Pingxiong Yang,Junhao Chu, Lin Sun*,Above 10% efficient electrodeposited Cu2ZnSn(S,Se)4 solar cell achieved by modifying precursor,Solar Energy Materials & Solar Cells 242,111781(2022).

[52] Jianjun Lin,Peng Shen,Yuan Liu,Fangyu Yue,Ye Chen,Zhiyong Zhou,Pingxiong Yang,Junhao Chu,Chun-Gang Duan,Lin Sun*,Electric-field modulated photovoltaic effect of ferroelectric double-perovskite Bi2FeMnO6 films,Appl.Phys.Lett.119,102903(2021).

[51] Bin Xu,Xiatong Qin,Xiaoshuang Lu,Yulin Liu,Ye Chen,Hui Peng,Pingxiong Yang,Junhao Chu,Lin Sun*, Realization of 11.5% Efficiency Cu2ZnSn(S,Se)4 Thin-Film Solar Cells by Manipulating the Phase Structure of Precursor Films,Solar RRL,2100216,(2021).

[50] Xiaoshuang Lu, Bin Xu, Xiatong Qin, Ye Chen, Pingxiong Yang, Junhao Chu,Lin Sun*, Heterojunction post-heat treatment process driving high efficiency for Cu2ZnSnS4 solar cell,Solar Energy Materials & Solar Cells 230,111204(2021).

[49] Yulin Liu, Bin Xu, Xiaoshuang Lu, Xiatong Qin, Pingxiong Yang,Junhao Chu,Ye Chen*, Lin Sun*,

Improvement of grain growth and composition distribution of Cu2ZnSn(S,Se)4 by using chloride-based precursor solution,Solar Energy 215,451–458(2021).

[48] Xiaoshuang Lu, Bin Xu, Xiatong Qin, Ye Chen, Pingxiong Yang, Junhao Chu,Lin Sun*, Modification of Back Contact in Cu2ZnSnS4 Solar Cell by Inserting Al-doped ZnO Intermediate Layer,ACS Applied Materials & Interfaces,12, 58060−58071(2020).

[47] Yuan Liu,Jianjun Lin,Ni Zhong,Ping-Hua Xiang,Ye Chen,Pingxiong Yang,Junhao Chu,Chun-Gang Duan, Lin Sun*,Ferroelectric domain structure of Bi2FeCrO6 multiferroic thin films,J. Appl. Phys. 128, 234103(2020).

[46] Xiaoshuang Lu, Bin Xu, Chuanhe Ma, Ye Chen, Pingxiong Yang, Junhao Chu, Lin Sun*,Improving the efficiency of Cu2ZnSnS4 solar cells by promoting the homogeneous distribution of Sn element,Applied Surface Science 529,147160(2020).

[45] Bin Xu, Xiaoshuang Lu, Chuanhe Ma, Yulin Liu, Ruijuan Qi , Rong Huang, Ye Chen,Pingxiong Yang, Junhao Chu, and Lin Sun*, MoO2 Sacrificial Layer for Optimizing Back Contact Interface of Cu2ZnSn(S,Se)4 Solar Cells,IEEE J.PHOTOVOLTAICS, 10,1191(2020).

[44] Bin Xu#; Chuanhe Ma#; Xiaoshuang Lu; Yulin Liu; Qiao Zhang; Ye Chen;Pingxiong Yang; Junhao Chu; Lin Sun*; Beyond 10% efficient Cu2ZnSn(S,Se)4 solar cells: Effects of the introduction of SnS powder during selenization process, Solar Energy Materials & Solar Cells, 210,110522(2020).

[43]Chuanhe Ma, Xiaoshuang Lu,Bin Xu, Fei Zhao,Xueer An, Bo Li, Fangyu Yue,Jinchun Jiang, Ye Chen,*, Lin Sun*, Junhao Chu,Effect of CZTS/CdS interfaces deposited with sputtering and CBD methods on Voc deficit and efficiency of CZTS solar cells, J.Alloys and Compounds 817,153329 (2020).

[42] Xiaoshuang Lu; Bin Xu; Chuanhe Ma; Ye Chen; Pingxiong Yang; Junhao Chu;Lin Sun*; Mechanism on the modified sulfurization process for growinglarge-grained Cu2ZnSnS4 thin films, Solar Energy, 196: 597-606(2020).

[41]Ma, Suyu#; Li, Hongkai#; Hong, Jin#; Wang, Han; Lu, Xiaoshuang; Chen,Ye; Sun, Lin*; Yue, Fangyu*; Tomm, Jens W.; Chu, Junhao; Chen, Shiyou*; Origin of Band-Tail and Deep-Donor States in Cu2ZnSnS4 Solar Cells and Their Suppression through Sn-Poor Composition , Journal of Physical Chemistry Letters, 10(24): 7929-7936(2019).

[40] Peng Shen, Zhao Guan, Ni Zhong, Ping-Hua Xiang, Rongbin Wang,Qinye Bao, Pingxiong Yang,Lin Sun*, Chun-Gang Duan and Jun-Hao Chu, Leakage mechanisms of double-perovskite Bi2FeMnO6 epitaxial thin films. J. Phys. D: Appl. Phys.51, 045304 (2018).

[39] Jun He⁠, Xiaoshuang Lu⁠, Xinran Li, Yuchen Dong, Fangyu Yue, Ye Chen*, Lin Sun⁠*, Pingxiong Yang,Junhao Chu, Compositional dependence of photovoltaic properties of Cu⁠2ZnSnSe⁠4 thin film solarcell: Experiment and simulation, Solar Energy,159, 572-578 (2018).

[38] L. Sun, Y. Fang, J.He, Y. Zhang, R. Qi, Q. He, R. Huang, P. Xiang, X. Tang, P. Yang, J. Chu, Y. Chu and C. Duan*, Preparation, structural, and multiferroic properties of B-site ordered double-perovskite Bi2FeMnO6, J. Mater. Chem. C, 5，5494-5500 (2017).

[37] X. Li, H. Cao, Y. Dong, F. Yue, Y. Chen, P. H. Xiang*, L. Sun*, P. X. Yang, J. H. Chu. Investigation of Cu2ZnSnS4 thin films with controllable Cu composition and its influence on photovoltaic properties for solar cells. J. Alloys Compd. 694:833-40(2017).

[36] Y. Dong,P. Shen, X. Li, Y.Chen, L. Sun*, P. X. Yang, J. H. Chu. Comparative study of the structural and optical properties of Cu2SnX3 and Cu2ZnSnX4 (X = S,Se) thin films and optoelectronic devices. Mater Res Express. 3:116411(2016).

[35] Y. Dong, J. He, X. Li, L. Sun*, Y. Chen, P.X.Yang, J. H. Chu, Effect of sulfurization temperature on properties of Cu2SnS3 thin films and solar cells prepared by sulfurization of stacked metallicprecursors, J. Alloys. & Compd.,665,69-75 (2016).

[34] Y. Dong, J. He, X. Li, W. Zhou, Y. Chen, L. Sun*, P.X. Yang, J. H. Chu. Synthesis and optimized sulfurization time of Cu2SnS3 thin films obtained from stacked metallicprecursors for solar cell application. Mater Lett. 160:468-71 (2015).

[33] Y. Dong,J. He, L.Sun*, Y. Chen,P.X. Yang, J. H. Chu, Effect of sulfurization temperature on properties of Cu2SnS3 thin films and solar cells prepared by sulfurization of stacked metallic precursors, Mater. Sci. Semiconductor Processing 38, 171–176 (2015).

[32] Y. Dong,J.He,J. Tao, L. Sun*, P.X. Yang, J. H. Chu, Influence of different S/Se ratio on the propertiesof Cu2Sn(SxSe1-x)3 thin films fabricated by annealingstacked metal precursors, J Mater Sci: Mater Electron, 26:6723–6729 (2015).

[31] J. Tao, K. Zhang, C. Zhang, L. Chen, H. Cao, J. Liu,J. Jiang, L. Sun,* P. X. Yang, J. H. Chu, A sputtered CdS buffer layer for co-electrodeposited Cu2ZnSnS4 solar cell with 6.6% efficiency, Chem. Commun., 51,10337-10340 (2015).

[30] J. He, L. Sun,* Y. Chen, J.C. Jiang, P.X. Yang and J. H. Chu, Influence of sulfurization pressure on Cu2ZnSnS4 thin films and solar cells prepared by sulfurization of metallic precursors, J. Power Sources, 273, 600-607(2015).

[29] Z. J. Shang, X. H. Zheng, C. Yang, Y. Chen, B. Li, L. Sun, Z. Tang, and D. G. Zhao, Carrier thermalization under stimulated emission in In0.17Ga0.83N epilayer at room temperature, Appl. Phys. Lett. 105, 232104 (2014).

[28] J. He, L. Sun,* Y. Chen, J.C. Jiang, P.X. Yang and J. H. Chu, Cu2ZnSnS4 thin film solar cell utilizing rapid thermal process of precursors sputtered from a quaternary target: a promising application in industrial processes, RSC Adv.,4, 43080–43086 (2014).

[27] J. H. Tao, J. He, K. Z. Zhang, J. F. Liu, Y. C. Dong, L. Sun* , P. X. Yang, J. H. Chu,

Effect of deposition potential on the properties of Cu2ZnSnS4 films for solar cell applications,

Mater. Lett. 135, 8-10 (2014).

[26] J. H. Tao, J. F. Liu, J. He, K. Z. Zhang, J. C. Jiang, L. Sun,* P. X. Yang and J. H. Chu, Synthesis and characterization of Cu₂ZnSnS₄ thin films by the sulfurization of co-electrodeposited Cu–Zn–Sn–S precursor layers for solar cell applications, RSC Adv., 4, 23977-23984 (2014).

[25] J. Liu, H. M. Deng, H. Y. Cao, X. Z. Zhai, J. H. Tao, L. Sun, P. X. Yang*, J. H. Chu, Influence of rare-earth elements doping on structure and optical properties of BiFeO3thin films fabricated by pulsed laser deposition, Appl. Surf. Sci. 307,543–547 (2014).

[24] K. Z. Zhang, J. H. Tao, J. He, W. J. Wang, L. Sun*, P. X. Yang, and J. H. Chu, Composition control in Cu₂ZnSnS₄ thin films by a Sol-Gel technique without sulfurization, J Mater Sci: Mater Electron 25:2703–2709 (2014).

[23] J. He, J. H. Tao, X. K. Meng, Y. C. Dong, K. Z. Zhang, L. Sun*, P.X. Yang, and J. H. Chu, Effect of selenization time on the growth of Cu2ZnSnSe4 thin films obtained from rapid thermal processing of stacked metallic layers, Mater. Lett. 126,1-4 (2014).

[22] H. Kong, J.He, X. K. Meng, L. P. Zhu, J. H. Tao, L. Sun, P. X. Yang*, and J. H. Chu, Influence of Se supply for selenization of Cu(In,Ga)Se₂ precursors deposited bysputtering from a single quaternary target, Mater. Lett.118,21–23(2014).

[21] X. K. Meng, H. M. Deng, J. He, L. P. Zhu, L. Sun, P. X. Yang*, and J. H. Chu,Synthesis of Cu₂FeSnSe₄ thin film by selenization of RF magnetron sputtered precursor, Mater. Lett, 117, 1–3 (2014).

[20]H. Kong, J. He, L. Huang, L. P. Zhu, L. Sun, P. X. Yang*, and J. H. Chu, Effect of working pressure on growth of Cu(In,Ga)Se₂ thin film deposited by sputtering from a single quaternary target, Mater. Lett., 116,75–78 (2014).

[19] G. Chen, W. Bai*, L. Sun, J. Wu, Q. Ren, W. F. Xu, J. Yang, X. J. Meng, X. D. Tang, C.-G. Duan, and J. H. Chu, “Processing optimization and sintering time dependent magnetic and optical behaviors of Aurivillius Bi₅Ti₃FeO₁₅ ceramics”, J. Appl. Phys., 113, 034901 (2013).

[18] J. He, L. Sun*, K. Z. Zhang, W. J. Wang, J.C. Jiang, Y. Chen, P. X. Yang, and J. H. Chu, Effect of post-sulfurization on the composition, structure and optical properties of Cu₂ZnSnS₄ thin films deposited by sputtering from a single quaternary target, Appl. Surf. Sci.,264, 133-138 (2013).

[17] L. Sun*, J. He, Y. Chen, F.Y. Yue, P.X. Yang, and J.H. Chu, Comparative study on Cu₂ZnSnS₄ thin films deposited by sputtering and pulsed laser deposition from a single quaternary sulfide target, J. Cryst. Growth, 361,147-151 (2012).

[16] J. He, L. Sun*, S.Y. Chen, Y. Chen, P. X. Yang, and J. H. Chu, Composition dependence of structure and optical properties of Cu₂ZnSn(S,Se)₄ solid solutions: An experimental study, J. Alloys. Compd.,511, 129-132 (2012).

[15] J. He, L. Sun*, N.F. Ding, H. Kong, S.H. Zuo, S.Y. Chen, Y. Chen, P.X. Yang, and J.H. Chu, Single-step preparation and characterization of Cu₂ZnSn(S_xSe₁₋_x)₄ thin films deposited by pulsed laser deposition method, J. Alloys. Compd.,529, 34-37 (2012).

[14] J. Yang*, J. He, J. Y. Zhu, W. Bai, L. Sun*, X. J. Meng, X. D. Tang, C.-G. Duan, D. Remiens, J. H. Qiu, and J. H. Chu, Small polaron migration associated multiple dielectric responses of multiferroic DyMnO₃ polycrystal in low temperature region, Appl. Phys. Lett., 101, 222904 (2012).

[13] W.W. Li‚ K. Jiang‚ J.Z. Zhang‚ X.G. Chen‚ Z.G. Hu*‚ S.Y. Chen‚ L. Sun‚ and J.H. Chu‚ Temperature dependence of phonon modes, dielectric functions, and interband electronic transitions in Cu₂ZnSnS₄ semiconductor films‚ Phys. Chem. Chem. Phys. 14 (28): 9936-9941 (2012).

[12] K. Jiang‚ X.G. Chen‚ W.W. Li‚ Z.N. Zhan‚ L. Sun‚ Z.G. Hu*‚ and J.H. Chu‚ Doping effect on the phase transition temperature in ferroelectric SrBi_2-xNd_xNb₂O₉ layer-structured ceramics: A micro-Raman scattering study‚ J. Raman Spectrosc.43 (04): 583-587 (2012).

[11] L. Sun*, J. He, H. Kong, P. X. Yang, and J. H. Chu，Structure, composition and optical properties of Cu₂ZnSnS₄ thin films deposited by Pulsed Laser Deposition method, Sol. Energy Mater. Sol. Cells,95(10), 2907 (2011).

[10] S. Chen, A. Walsh, J.H. Yang, X.G. Gong, L. Sun, P.X. Yang, J.H. Chu, and S.H. Wei*, Compositional dependence of structural and electronic properties of the Cu₂ZnSn(S,Se)₄ alloys for thin film solar cells,Phys. Rev. B, 83, 125201(2011).

[9] F.Y. Yue*, L. Chen, Y.W. Li, Z.G. Hu, L. Sun, P.X. Yang, and J.H. Chu, Influence of annealing conditions on impurity species in arsenic-doped HgCdTe grown by molecular beam epitaxy, Chin. Phys. B, 19, 117106 (2010).

[8] M.Zhu, L. Sun, W.W. Li, W.L. Yu, Y.W. Li, Z.G. Hu*, and J. H. Chu，Lattice vibrations and dielectric functions of ferroelectric SrBi_2-xNd_xNb₂O₉ bismuth layer-structured ceramics determined by infrared reflectance spectra. Mater. Res. Bulletin, 45, 1654 (2010).

[7] L. Sun, J. H. Chu, C. D. Feng* and L. D. Chen, Analysis of relaxor mechanism and structural distortion for SrBi1.6Nd0.4Nb2O9 bismuth-layer-structured ceramics,Appl. Phys. Lett., 91, 242902 (2007).

[6] L. Sun, C. D. Feng*, L. D. Chen and S. M. Huang, Effect of substitutions of Nd³⁺ for Bi³⁺ on the dielectric properties and structures of SrBi_2-xNd_xNb₂O₉ bismuth-layer-structured ceramics, J. Appl. Phys., 101, 084102 (2007).

[5] L. Sun, C. D. Feng*, L. D. Chen and S. M. Huang, Dielectric relaxation in layer structured SrBi_2-xNd_xNb₂O₉ Ceramics (χ=0,0.05,0.2,0.35), J. Am. Ceram. Soc., 90[1]: 322-326 (2007).

[4] L. Sun, C.D. Feng*, L. D. Chen and S. M. Huang, Dielectric and Piezoelectric properties of Sm-modified SrBi₂Nb₂O₉ (χ=0, 0.05, 0.1, 0.2, 0.3 and 0.4) ceramics, J. Am. Ceram. Soc. 90(12):3875-3881 (2007).

[3] S.M. Huang, L. Sun, C. D. Feng* and L. D. Chen, Relaxor behavior of layer structured SrBi1.65La0.35Nb2O9,J. Appl. Phys., 99: 076104-06 ( 2006).

[2] L. Sun, C.D. Feng*, L. D. Chen, S. M. Huang and X. W. Wei, Piezoelectric and ferroelectric properties of SrBi₂(Nb_1-xTa_x)₂O₉ Ceramics, Mater. Sci. Eng. B, 135, 60-64 ( 2006).

[1] L. Sun, C.D. Feng, Q. C. Sun and H. Zhou, Study on Pb(Zr,Ti)O₃-Pb(Zn_1/3Nb_2/3)O₃-Pb(Mn_1/3Sb_2/3)O₃ quinary system piezoelectric ceramics,Mater. Sci. Eng. B, 122, 61-66 ( 2005).

授权发明专利：

[2] 马传贺; 孙琳; 江锦春; 陈晔; 卢小双; 徐斌; CZTS太阳能电池制作方法, 2019-11-1, 中国, ZL201711296726.4.

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