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基本信息 Basicinformation

姓    名：陈桂林

职    称：教授

硕导/博导：博导

最高学位：博士

行政职务：能源材料系主任

其它兼职：

单    位：福建师范大学物理与能源学院

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联系方式 Contact

通讯地址：福建师范大学旗山校区理工楼4-404

邮政编码：350117

电子邮箱：glchen@fjnu.edu.cn

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研究方向 ResearchInterests

低成本法制备铜铟镓硒薄膜太阳能电池的研究；新型无机薄膜太阳能电池：铜锌锡硫硒和硒化锑化合物薄膜太阳能；光电薄膜的沉积及应用。

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个人履历 Resume

教  育：

硕士、博士 2008/09-2014/07中国科学技术大学，材料物理与化学专业

学士          2004/09-2008/07福州大学，材料科学与工程专业

工  作：     

2020.12-至今   福建师范大学 教授

2016.12-2020.11福建师范大学副教授

2014.08-2016.11福建师范大学讲师

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个人简介  Brief

陈桂林（1986-），福建泉州人，中国科学技术大学工学博士，教授，博士生导师。主要从事高效率铜铟镓硒薄膜太阳能电池的研究，致力于低成本铜铟镓硒薄膜太阳能电池的产业化发展；同时探索新型无机薄膜太阳能电池，如铜锌锡硫硒和硒化锑化合物薄膜太阳能电池等。目前，已经以第一作者或通讯作者身份在国际能源及材料领域期刊Adv.Electron. Mater.、J.Mater. Chem. A、SolarRRL、ACSApplied Materials & Interfaces、J.Power Sources、ElectrochimicaActa、SolarEnergy等学术刊物上发表SCI论文30余篇。主持2项国家自然科学基金、1项福建省自然科学基金。

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代表性论文 SelectedPublications

(1) M. Yang,X.-J. Huang, L.-Q. Yao, L.-M. Lin, A.-C. Chen*, Y.-Q. Chen, Y.-L.Che, S.-Y. Chen, X.-K. Kong*, G.-L.Chen*,Self-stabilizing molecular solution for Cu₂SnS₃thin film: An insight into the oxidation inhibitor of bivalent tinion, Journal of Power Sources, 2021, 494, 229699.

(2) L.Y. Yao,L.M. Lin, H. Liu, F.Y. Wu, J.M. Li*, S.Y. Chen, Z.G. Huang, G.L.Chen*,Front and back contact engineering for high-efficient and low-costhydrothermal derived Sb₂(S,Se)₃solar cells by using FTO/SnO₂and carbon, Journal of Materials Science & Technology, 2020, 58:130-137.

(3) B.W. Chen#, Y.R. Ruan#, J.M.Li*, W.H. Wang, X.L. Liu, H.L. Cai, L.Q. Yao, J.M. Zhang*, S.Y. Chen,G.L. Chen*,Highly oriented GeSe thin film: self-assembly growth via thesandwiching post-annealing treatment and its solar cell performance,Nanoscale, 2019, 11: 3968.

(4) H.L. Cai, Y.S. Xia, C.Y. Dao,J.M. Li*, L.M. Lin, X.K. Kong*, S.Y. Chen, Z.G. Huang, G.L.Chen*, Ambient-airsulfurization process for Cu₂ZnSnS₄thin film solar cells, self-creating inert atmosphere using sulfurvapor, ACS Applied Energy Material, 2019, 2, 10, 7279-7287.

(5) W.H. Wang, G.L.Chen*, H.L. Cai, B.W.Chen, L.Q. Yao, M. Yang, S.Y. Chen*, Z.G. Huang, The effects of SnS₂secondary phases on Cu₂ZnSnS₄solar cells: a promising mechanical exfoliation method for itsremoval, Journal of Materials Chemistry A, 2018, 6: 2995-3004.

(6) W.H. Wang^#,X.M. Wang^#,G.L. Chen*,L.Q. Yao, X.J. Huang, T. Chen*, C.F. Zhu, S.Y. Chen, Z.G. Huang, Y.Zhang*, Over 6% Certified Sb₂(S,Se)₃solar cells fabricated via in situ hydrothermal growth andpostselenization, Advanced Electronic Material, 2018, 1800683.

(7) W.H. Wang^#,X.M. Wang^#,G.L. Chen*,B.W. Chen, H.L. Cai, T. Chen*, S.Y. Chen, Z.G. Huang, C.F. Zhu, Y.Zhang*, Promising Sb₂(S,Se)₃solar cells with high open voltage by application of a TiO₂/CdSdouble buffer layer, Solar RRL, 2018, 1800208.

(8) W.H. Wang, G.L. Chen, Z.Z.Wang, K. Wang, S.Y. Chen, Z.G. Huang, X.M. Wang, T. Chen, C.F. Zhu,X.K. Kong, Full-inorganic Sb₂(S,Se)₃solar cells using carbon as both hole selection material andelectrode, Electrochimica Acta, 2018, 290, 457-464.