主要研究方向：光电材料及光伏器件

■教育经历：

2012.09-2016.07湖北理工学院 无机非金属材料工程 工学学士

2017.09-2018.07华南理工大学 材料物理与化学硕博连读

2018.09-2022.07华南理工大学 物理学 理学博士

■工作经历：

2022年7月—至今，leyu乐鱼(中国)官方网站，专任教师

■荣誉称号及奖励：

■学术论文：

[1]Chengwen Huang, Huangzhong Yu*, High Performance Polymer Solar Cells Based HfO₂ passivated 2D-HfX₂ (X=S, Se) as a Hole Transport Layers, Nano Energy, 2022, 103, 107750. (JCR一区，IF=19.096)

[2] Chengwen Huang, Shengwei Shi, Huangzhong Yu*, Work functions tuning of Nb₂CT_x flakes as hole and electron extraction layers in organic solar cells by controlling surface functional groups, ACS Energy Letters, 2021, 6, 3464−3472. (JCR 一区，IF=23.101)

[3] Chengwen Huang, Huangzhong Yu*, 2D Bi₂O₂Se with High Mobility for High Performance Polymer Solar Cells, ACS Applied Materials & Interfaces, 2020, 12, 19643. (JCR 一区，IF=9.229)

[4] Chengwen Huang, Huangzhong Yu*, Enhanced carrier mobility and power conversion efficiency of organic solar cells by adding 2D Bi₂OS₂, 2D Materials. 2020, 7, 025023. (JCR 一区，IF=7.103)

[5] Chengwen Huang, Huangzhong Yu*, Jinyun Chen, Jiang Zhang, Zuping Wu, Chunli Hou, Improved performance of polymer solar cells by doping with Bi₂O₂S nanocrystals, Solar Energy Materials and Solar Cells, 2019, 200, 110030. (JCR 一区，IF=7.267)

[6] Chengwen Huang, Huangzhong Yu*, Amino acid modified Ti₃C₂T_x as electron extraction layers for high performance organic solar cells, submitted.

[7] Chunli Hou, Chengwen Huang, Huangzhong Yu*. Surface-engineered Ti₃C₂T_x with tunable work functions for highly efficient polymer solar cells, 2022, 2201046. (共一作，JCR一区, IF=13.281)

[8] Jiankai Zhang, Chengwen Huang, Huangzhong Yu*, Modulate the work function of Nb₂CT_x MXene as the hole transport layer for perovskite solar cells, Applied Physics Letters, 2021,119, 033506. (JCR 二区，IF=3.791)

[9] Jiankai Zhang, Chengwen Huang, Huangzhong Yu*, Modulating the work function of niobium-carbide MXene combine with additive engineering for the preparation of high-performance methylammonium-free perovskite solar cells, Advanced Functional Materials, 2022, 2113367. (JCR 一区，IF=18.808)

[10]Jiankai Zhang, Yapeng Sun, Chengwen Huang, Bo Yu, Huangzhong Yu*,Reduced V_ocloss of perovskite solar cells via forming p/p⁺ homojunction and interface electric field on the surfaces of perovskite film, Advanced Energy Materials. (JCR 一区，IF=29.698)

[11] Jingyu Tan, Yujun Zhao, Guangliang Li, Song Yang, Chengwen Huang, Huangzhong Yu*,High-performance Organic Solar Cells by adding Two-Dimensional GeSe, Advanced Functional Materials. (JCR 一区，IF=18.808)

[12] Jinyun Chen, Jiankai Zhang, Chengwen Huang, Zhuoneng Bi, Huangzhong Yu*, Shengwei Shi*, Xu, Xueqing Xu*, Two-dimensional Bi₂OS₂ doping improves the performance and stability of perovskite solar cells, Chemical Engineering Journal, 2021, 420, 127700. (JCR 一区，IF=13.273)

[13] Jinyun Chen; Jiankai Zhang; Chengwen Huang; Zhuoneng Bi; Xueqing Xu*; Huangzhong Yu*, SnO₂/2D-Bi₂O₂Se new hybrid electron transporting layer for efficient and stable perovskite solar cells, Chemical Engineering Journal, 2021, 410, 128436. (JCR 一区，IF=13.273)  

[14] Chunli Hou, Huangzhong Yu*, Chengwen Huang, Solution-processable Ti₃C₂T_x nanosheets as an efficient hole transport layer for high-performance and stable polymer solar cells, Journal of Materials Chemistry C, 2019, 7, 11549-11558. (JCR 一区，IF=7.393)

[15] Yapeng Sun, Jiankai Zhang, Huangzhong Yu*, Jianming Wang, Chengwen Huang, Jinzhen Huang, Mechanism of Bifunctional P-amino Benzenesulfonic Acid Modified Interface in Perovskite Solar Cells, Chemical Engineering Journal, 2021, 6, 129579. (JCR 一区，IF=13.273)

[16] Huangzhong Yu*, Xinxin Huang, Chengwen Huang, PEIE doped ZnO as a tunable cathode interlayer for efficient polymer solar cells, Applied Surface Science, 2019, 470, 318-330. (JCR 一区，IF=6.707)

[17] Xinxin Huang, Huangzhong Yu*, Shengwei Shi, Chengwen Huang, Improving the performance of inverted polymer solar cells by the efficiently doping and modification of electron transport layer-ZnO, Organic Electronics, 2019, 65, 311-320. (JCR 二区，IF=3.721)

[18]Huangzhong Yu*, Zuping Wu, Yifan Dong, Chengwen Huang, Shengwei Shi, Yuxia Zhang, ZnO nanorod arrays modified with Bi₂S₃ nanoparticles as cathode for efficient polymer solar cells, Organic Electronics, 2019, 75, 105369. (JCR 二区，IF=3.721)

[19] Huangzhong Yu*, Zuping Wu, Chengwen Huang, Chunli Hou, Surface Modification on Nanoripple-like ZnO Nanorod Arrays Using Two-dimensional (2D) Bi₂OS₂ to Fabricate High-Performance Inverted Polymer Solar Cells, Applied Surface Science, 2020, 513, 145874. (JCR 一区，IF=6.707)

■知识产权：

[1] 发明专利, 於黄忠; 黄承稳; 黄欣欣; 巫祖萍; 陈金雲; 韩俊杰, 一种CsGeI₃掺杂有机太阳能电池及其制备方法，授权公布号：CN109244240B，申请号：201810824768.9。

[2] 发明专利, 於黄忠; 黄承稳, 一种高迁移率二维Bi₂O₂Se掺杂的三元太阳能电池及制备方法，申请号：2019109384283，授权公布号：CN110676386B。

[3] 发明专利, 於黄忠; 黄承稳; 张弜; 黄欣欣; 巫祖萍; 陈金雲, 有机太阳能电池的活性层及其制备方法，申请号：2018109208145，申请公布号：CN109256469A。

[4]发明专利,於黄忠; 黄承稳，一种基于HfS₂为空穴传输层的有机太阳能电池及其制备方法，申请号：CN202110770901.9，申请公布号：CN113690373A

[5] 发明专利, 於黄忠;　张弜; 黄承稳; 黄欣欣; 巫祖萍; 陈金雲; 薛开元, 一种Cs₂SnI₆掺杂有机太阳能电池及其制备方法，授权公布号：CN109216563B，申请号：201810825225.9

[6] 发明专利, 於黄忠; 张弜; 黄承稳; 黄欣欣; 巫祖萍; 陈金雲; 林卓耿, 一种CsSnI₃掺杂有机太阳能电池及其制备方法，授权公布号：CN109216553B，申请号：201810824771.0

[7] 发明专利, 於黄忠; 张弜; 黄承稳; 黄欣欣; 巫祖萍; 陈金雲, 一种Bi₂OS₂掺杂有机太阳能电池及其制备方法，授权公告号：CN109301070B，申请号：201810824964.6

[8] 发明专利, 於黄忠; 张弜; 黄承稳; 黄欣欣; 巫祖萍; 陈金雲, 一种CsPbBr₃掺杂有机太阳能电池及其制备方法，授权公告号：CN109244241B，申请号：2018108252225

[9] 发明专利, 於黄忠；侯春利；黄承稳, 一种MXene掺杂PEDOT:PSS为阳极修饰层材料的有机太阳能电池及其制备方法，授权公告号：CN109904326B，申请号：2019100497962。

[10] 发明专利, 於黄忠；陈金雲；黄承稳；巫祖萍；侯春利；王键鸣, Bi₂O₂S修饰SnO₂电子传输层的钙钛矿太阳能电池及制备方法，授权公告号：CN110350089B，申请号：2019105255902。

[11] 发明专利, 於黄忠；陈金雲；黄承稳；巫祖萍；侯春利；王键鸣，Bi₂O₂Se界面修饰的钙钛矿太阳能电池及制备方法，授权公告号：CN110350090B，申请号：2019105473447。

[12] 发明专利, 於黄忠；黄金珍；黄承稳；侯春利；王键鸣；张健开；孙亚鹏，以掺杂了生物材料GHK-Cu的ZnO薄膜为电子传输层的有机太阳能电池及其制备方法，申请号：202011488757.1

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