於黄忠
时间:2024-05-03 22:58 来源: 作者: 点击:次
更新日期:2024年4月18日 姓 名 於黄忠 性 别 男 出生年月 籍贯 江西都昌县 民 族 汉族 政治面貌 中国共产党党员 最后学历 博士研究生 最后学位 工学博士 技术职称 教授 导师类别 博、硕导 行政职务 Email hzhyu@scut.edu.cn 工作单位 华南理工大学物理与光电学院 邮政编码 通讯地址 广州天河区五山路381号 单位电话 工作经历 2002年7月加入华南理工大学物理与光电学院,历任讲师、副教授、教授、博士生导师。 教育经历 2002年6月获华南师范大学硕士学位;2008年6月获华南理工大学博士学位; 获奖、荣誉称号 2014年获华南理工大学 “卓越南光奖”; 2015年获华南理工大学"优秀班主任";2013年获华南理工大学“优秀共产党员”;2013年获华南理工大学“教学一等奖”;2012年获华南理工大学“教学一等奖”; 研究领域 1. 低维纳米材料的制备及其在光电器件中应用,二维MXene的制备和修饰、复合体系的制备及应用。2. 薄膜太阳电池(有机太阳电池,钙钛矿太阳电池,柔性光伏器件)的制备及模拟。 科研项目 1. 主持国家自然科学基金面上项目3项 (61176061, 61474046, 61974045)。2. 主持广东省自然科学基金项目3项 (2017A030313379, 2019A1515012092, 2023A1515012733)。3. 主持横向技术研发项目(D8232640)。4. 主持广东省高校高等教育教学改革项目(Y1172140),重点实验室开放基金多项。5. 参与国家自然科学基金项目1项、省级重点项目多项。 发表论文 以第一作者或通信作者在国内、外重要刊物Advanced Energy Materials、Angewandte Chemie International Edition、ACS Energy Letters, Advanced Functional Materials, Nano Energy, Chemical Engineering Journal, Small, Journal of Materials Chemistry A, Carbon, ACS Applied Materials & Interfaces, 2D Materials, Journal of Materials Chemistry C, Solar Energy Materials & Solar Cells, Electrochimica Acta, Organic Electronics, Advanced Electronic Materials, Nanoscale, Applied Physics Letters 等发表科研论文120余篇,其中SCI、EI收录科研论文100余篇,ESI高被引论文4篇,论文被引用2300余次。近年来发表的代表性论文如下。2024年论文1. Yuning Zhang, Bo Yu, Yapeng Sun, Jiankai Zhang, Zhan Su, Huangzhong Yu*, An MBene Modulating the Buried SnO2/Perovskite Interface in Perovskite Solar Cells, Angewandte Chemie, 2024, DOI: 10.1002/anie.202404385, accepted, IF=16.6.2. Hongye Li, Bo Yu, Huangzhong Yu*, An efficient and stable inverted structure organic solar cell using ZnO modified by two-dimensional ZrSe2 as a composite electron transport layer, Advanced Functional Materials, 2024, 2402128. IF=19.3. Yapeng Sun, Jiankai Zhang, Bo Yu, Shengwei Shi, Huangzhong Yu*, Regulate Defects and Energy Levels for Perovskite Solar Cells by Co-modification Strategy, Nano Energy, 2024, 121, 109245. SCI. IF=17.64. Hao Zhang, Jianbo Wan, Ruiqing Wu, Huangzhong Yu*, Shengwei Shi*, MXenes for Electromagnetic Interference Shielding: Insights from Structural Design, Carbon, 2024, 218, 118716. SCI. IF=10.9.5. Bo Yu‡, Zhiwei Xu‡, Hualin Liu, Yumeng Liu, Kanghua Ye, Zhiquan Ke, Jiankai Zhang*, Huangzhong Yu*, Improved air stability for high-performance FACsPbI3 perovskite solar cells via bonding engineering, ACS Applied Materials & Interfaces, 2024, 16, 2408−2416. SCI. IF=9.5.6. Hongye Li, Jingyu Tan, Song Yang, Yapeng Sun, Huangzhong Yu*, P-toluenesulfonic acid modified two-dimensional ZrSe2 as hole transport layer for high-performance organic solar cells, ACS Applied Materials & Interfaces, 2024, DOI: 10.1021/acsami.4c00928. SCI. IF=9.5.7. Yanlin Li, Yiyi Chen, Qi Zhang, Ting Peng, Huangzhong Yu*, Shengwei Shi*, Recyclable Highly Sensitive Strain Sensors Based on Silver Nanowire Percolation Networks, ACS Applied Nano Materials, Minor revision.8. Bo Yu, Jiankai Zhang, Yapeng Sun, Huangzhong Yu*, Thiol-functionalized covalent organic frameworks for efficient and stable perovskite solar cells with inhibited internal diffusion of metal electrodes, submitted.9. Song Yang, Bo Yu, Huangzhong Yu*, 2D g-C3N5 p-Doping of donor material for high-efficiency organic solar cells, submitted.10. 2023年论文1. Jiankai Zhang, Bo Yu, Yapeng Sun, Huangzhong Yu*, Minimized energy loss at the buried interface of p-i-n perovskite solar cells via accelerating charge transfer and forming p-n homojunction, Advanced Energy Materials, 2023, 13, 2300382. SCI. IF=27.8.2. Chengwen Huang, Jingyu Tian, Song Yang, Yujun Zhao, Huangzhong Yu*, Amino acid modified Ti3C2Tx as electron transport layers for high-performance organic solar cells, Nano energy, 2023, 115, 108691.SCI. IF=17.63. Song Yang, Huangzhong Yu*, The modification of ZnO surface with natural antioxidants to fabricate highly efficient and stable inverted organic solar cells, Chemical Engineering Journal, 2023, 452, 139658. SCI. IF=15.1.4. Bo Yu, Yapeng Sun, Jiankai Zhang, Kai Wang, Huangzhong Yu*,Synergetic Regulation of Interface Defects and Carriers Dynamics for High Performance Lead-Free Perovskite Solar Cells, Small, 2023,2307025. DOI:10.1002/smll.202307025. IF=13.3.5. Yapeng Sun, Jiankai Zhang, Huangzhong Yu*, Room-temperature electrochemical deposited polycrystalline SnO2 with adjustable work function for high-efficiency perovskite solar cells, Journal of Materials Chemistry A, 2023, 11, 901. SCI. IF=11.9.6. Jingyu Tan, Song Yang, Yapeng Sun, Guanliang Li, Yujun Zhao and Huangzhong Yu*, ZnO&GeSe composite electron transport layer for the organic solar cells, Journal of Materials Chemistry A, 2023, 12, 1530-1542. IF=11.9.7. Kai Wang, Bo Yu, Changqing Lin, Ruohe Yao, Huangzhong Yu*, Hong Wang*, Multifunctional Additives to Enhanced Perovskite Solar Cell Performance, Solar RRL, 2023, 7, 2300137. IF=7.9.8. Jinzhen Huang, Huangzhong Yu*, The High-performance Ternary Polymer Solar Cells with an Improved Charge mobility and Stability by Incorporating Environmental Biomaterials Astaxanthin, Electrochimica Acta, 2023, 439, 141684. IF=6.6.9. Xin Qin, Jianbo Wan, Qi Zhang, Yongjie Zhang, Huangzhong Yu*, Shengwei Shi*, Polyaniline-Modified Graphite Carbon Nitride for Supercapacitor Electrode Materials, Carbon Letters, 2023,33, 781–790. 2022年发表的论文1. Jiankai Zhang, Yapeng Sun, Chengwen Huang, Bo Yu and Huangzhong Yu*,Reduced Open-Circuit Voltage Loss of Perovskite Solar Cells via Forming p/p(+) Homojunction and Interface Electric Field on the Surfaces of Perovskite Film, Advanced Energy Materials, 2022, 12, 2202542. SCI. IF=29.698.2. Jiankai Zhang, Chengwen Huang, Yapeng Sun, Huangzhong Yu*, Amino-functionalized niobium-carbide MXene serving as electron transport layer and perovskite additive for the preparation of high-performance and stable methylammonium-free perovskite solar cells, Advanced Functional Materials, 2022, 32, 2113367. SCI. IF=19.924. ESI 1%高引论文.3. Jingyu Tan, Yujun Zhao, Guanliang Li, Song Yang, Chengwen Huang, Huangzhong Yu*, High-Performance Organic Solar Cells by adding Two-Dimensional GeSe, Advanced Functional Materials, 2022, 32, 2209094. SCI. IF=19.924. 4. Chengwen Huang, Huangzhong Yu*, High Performance Polymer Solar Cells Based HfO2 passivated 2D-HfS2 as a Hole Transport Layers, Nano Energy, 2022, 103, 107750. IF=19.0965. Chunli Hou, Chengwen Huang, Huangzhong Yu*, Shengwei Shi, Surface-engineered Ti3C2Tx with tunable work functions for highly efficient polymer solar cells, Small, 2022, 18, 2201046. SCI. IF=15.153.6. Jinzhen Huang, Huangzhong Yu*, Xiaoming Zhou, ZnO nanoparticles modified with biomaterial GHK-Cu as electron transport layer to fabricate highly efficient inverted polymer solar cells, Chemical Engineering Journal, 2022, 428, 131366. SCI. IF=16.744. 7. Jiankai Zhang, Yapeng Sun, Huangzhong Yu*, Reducing energy loss via adjusting the anode work function and perovskite layer morphology for the efficient and stable hole transporting layer-free perovskite solar cells, Chemical Engineering Journal, 2022, 431, 133948. SCI. IF=16.744. 8. Bo Yu, Huangzhong Yu*, Yapeng Sun, Jiankai Zhang, Dual-layer synergistic optimization of high-efficiency planar perovskite solar cells using nitrogen-rich nitrogen carbide as additive, Journal of Materials Chemistry A, 2022, 10, 21390–21400. SCI. IF=14.511.9. Yapeng Sun, Jiankai Zhang, Huangzhong Yu*, Chengwen Huang, Jinzhen Huang, Several triazine-based small molecules assisted preparation of high-performance and stable perovskite solar cells by traps passivation and heterojunction engineering, ACS Applied Materials & Interfaces, 2022, 14, 6625–6637, SCI. IF=10.383. ESI 1%高引论文.10. Kai Wang‡, Bo Yu‡, Changqing Lin, Ruohe Yao, Zuorong Nie, Hong Wang*, Huangzhong Yu*, Multifunctional Modifications Based on Carbonyl Material Enhanced Performance of Perovskite Solar Cells, Solar RRL, 2022, 6, 2200862. IF=9.173.11. Chunli Hou, Huangzhong Yu*, ZnO:bio-inspired polydopamine functionalized Ti3C2Tx composite electron transport layers for highly efficient polymer solar cells, Journal of Alloys and Compounds, 2022, 900, 163381. SCI. IF=6.371.12. Jinxin Xu, Ting Peng, Qi Zhang, Huaming Zheng*, Huangzhong Yu*, Shengwei Shi*, The Effect of Intercalation Strategy on Electrochemical Properties of Ti3C2Tx MXenes for High-Performance Supercapacitors, ACS Applied Nano Materials, 2022, 5, 8794. SCI, IF=6.140.2021年发表论文1. Chengwen Huang, Shengwei Shi, Huangzhong Yu*, Work functions tuning of Nb2CTx flakes as hole and electron extraction layers in organic solar cells by controlling surface functional groups, ACS Energy Letters, 2021, 6, 3464−3472, IF=23.991.2. Jiankai Zhang, Huangzhong Yu*, Multifunctional dopamine-assisted preparation of efficient and stable perovskite solar cells, Journal of Energy Chemistry, 2021, 54, 291. SCI. IF=13.599. ESI 1%高引论文.3. Jiankai Zhang, Huangzhong Yu*, Reduced energy loss enabled by thiophene-based interlayers for high performance and stable perovskite solar cells, Journal of Materials Chemistry A, 2021, 9, 4138. SCI. IF=14.511.4. Jinxin Xu, Ting Peng, Xin Qin, Qi Zhang, Tianyi Liu, Wubin Dai, Bing Chen*, Huangzhong Yu*, Shengwei Shi*, Recent Advances in 2D MXenes: Preparation, Intercalation and Applications in Flexible Devices, Journal of Materials Chemistry A, 2021, 9(25)14147-14171.SCI. IF=14.511.5. Chunli Hou, Huangzhong Yu*, ZnO/Ti3C2Tx monolayer electron transport layers with enhanced conductivity for highly efficient inverted polymer solar cells, Chemical Engineering Journal, 2021, 407, 127192. SCI. IF=16.744. ESI 1%高引论文.6. 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. SCI. IF=16.744.7. 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. SCI. IF=16.744.8. 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. SCI. IF=16.744.9. Jinzhen Huang, Huangzhong Yu*, Efficient ternary organic solar cells with tunable crystallinity and phase separation of active layers via incorporating GHK-Cu, ACS Applied Materials & Interfaces, 2021, 13, 46927–46937, IF=10.383.10. Yajie Fu, Yapeng Sun, Hao Tang, Lingyun Wang, Huangzhong Yu*, Derong Cao*, Selenium-containing D-A-D-type dopant-free hole transport materials for perovskite solar cells, Dyes and Pigments, 2021,191, 109339. SCI. IF=5.122.11. Jianming Wang, Huangzhong Yu*, Chunli Hou, High-efficiency Ternary Polymer Solar Cells with Optimized Morphology of Active Layers Enabled by Few-Layered β-InSe Nanosheets, Nanoscale, 2021, 13, 6871. IF=8.307.12. Jiankai Zhang, Chengwen Huang, Huangzhong Yu*, Modulate the work function of Nb2CTx MXene as the hole transport layer for perovskite solar cells, Applied Physics Letters, 2021,119, 033506. IF=3.971.2020年发表论文1. Chengwen Huang, Huangzhong Yu*, 2D Bi2O2Se with High Mobility for High Performance Polymer Solar Cells, ACS Applied Materials & Interfaces, 2020, 12, 19643. SCI. IF=10.383.2. Jianming Wang, Huangzhong Yu*, Chunli Hou, Jiang Zhang, Solution-processable PEDOT:PSS:α-In2Se3 with Enhanced Conductivity as a Hole Transport Layer for High-Performance Polymer Solar Cells, ACS Applied Materials & Interfaces, 2020, 12, 26543. SCI. IF=10.383.3. Jinyun Chen, Zhuoneng Bi, Xueqing Xu*, Huangzhong Yu*, The low temperature solution-processable SnO2 modified by Bi2O2S as an efficient electron transport layer for perovskite solar cells, Electrochimica Acta, 2020, 330, 135197. SCI. IF=7.336.4. Chengwen Huang, Huangzhong Yu*, Enhanced carrier mobility and power conversion efficiency of organic solar cells by adding 2D Bi2OS2, 2D Materials. 2020, 7, 025023. SCI. IF=6.861.5. Chunli Hou, Huangzhong Yu*, Modifying the nanostructures of PEDOT:PSS/Ti3C2TX composite hole transport layers for highly efficient polymer solar cells, Journal of Materials Chemistry C, 2020, 8, 4169. SCI. IF=8.067.6. Wenting Li, Huan Zhang, Shengwei Shi*, Jinxin Xu, Xin Qin, Qiqi He, Kecong Yang, Wubin Dai, Gang Liu*, Quanguo Zhou, Huangzhong Yu*, S. Ravi P. Silva*, Mats Fahlman, Recent Progress of Silver Nanowire Networks for Flexible Organic Electronics, Journal of Materials Chemistry C, 2020, 8, 4636. SCI. IF=8.067.7. 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. SCI. IF=7.392.8. Jianming Wang, Huangzhong Yu*, Chunli Hou, Jiang Zhang, Solution-Processable 2D α-In2Se3 as an Efficient Hole Transport Layer for High-Performance and Stable Polymer Solar Cells, Solar RRL 2020, 4, 1900428. SCI. IF=9.173.9. Xiaoqing Zhang, Jingling Li, Zhuoneng Bi, Kun He, Xueqing Xu*, Xiudi Xiao, Yanqing Zhu, Yongjun Zhan, Liuwen Zhong, Gang Xu, Huangzhong Yu*, Stable and efficient air-processed perovskite solar cells employing low-temperature processed compact In2O3 thin films as electron transport materials, Journal of Alloys and Compounds, 2020, 836, 155460. IF=6.371.2019年发表论文1. Zuping Wu, Huangzhong Yu*, Shengwei Shi, Yanping Li, Bismuth oxysulfide modified ZnO nanorod arrays as an efficient electron transport layer for inverted polymer solar cells, Journal of Materials Chemistry A, 2019, 7, 14776-14789. SCI. IF=14.511.2. 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. SCI. IF=7.305.3. Chunli Hou, Huangzhong Yu*, Chengwen Huang, Solution-processable Ti3C2Tx nanosheets as an efficient hole transport layer for high-performance and stable polymer solar cells, Journal of Materials Chemistry C, 2019, 7, 11549-11558. SCI. IF=8.067.4. 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. SCI. IF=3.868.5. 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. SCI. IF=3.868.6. 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. SCI. IF=7.392.7. Siyuan Chen, He Duan, Long Zhao, Yanming Zhao, Asha Gupt, Quan Kuang, Qinghua Fan, Xinxuan Zeng, Huangzhong Yu, Youzhong Dong*, Electrochemical performance and Li+ insertion/extraction mechanism of carbon-coated cerium metavanadate as a novel anode for lithium-ion batteries, Journal of Power Sources, 2019, 413, 250-258. SCI. IF=9.794.2018年发表论文1. Huangzhong Yu*, Zuping Wu, Xinxin Huang, Shengwei Shi, Yanping Li, Synergetic effects of acid treatment and localized surface plasmon resonance in PEDOT:PSS layers by doping HAuCl4 for efficient polymer solar cells, Organic Electronics, 2018, 62, 121~132. SCI. IF=3.868.2. Zuping Wu, Ziqi Yu, Huangzhong Yu*, Xinxin Huang, Mingdong Chen, Effect of trifluoroacetic acid treatment of PEDOT:PSS layers on the performance and stability of organic solar cells, Journal of Materials Science-Materials in Electronic, 2018, 29, 6607~6618. SCI. IF=2.779.3. Xinxin Huang, Huangzhong Yu*, Zuping Wu, Yanping Li, Improving the performance of polymer solar cells by efficient optimizing the hole transport layer-graphene oxide, Journal of Solid State Electrochemistry, 2018, 22, 317~329. SCI. IF=2.747.4. Shengwei Shi*, Zheyi Sun, Xianjie Liu, Amilcar Bedoya-Pinto, Patrizio Graziosi, Huangzhong Yu, et al. 11,11,12,12-Tetracyanonaphtho-2,6-quinodimethane in Contact with Ferromagnetic Electrodes for Organic Spintronics, Advanced Electronic Materials, 2018, 4, 1800077. SCI. IF=7.633.5. Mingdong Chen, Huangzhong Yu, Xiaohua Jie*, Yigang Lu, Optimization on microwave absorbing properties of carbon nanotubes and magnetic oxide composite materials, Applied Surface Science, 2018, 434, 1321~1326. SCI. IF=7.392.2017年发表论文1. Yanping Li, Huangzhong Yu*, Xinxin Huang, Zuping Wu, Haihong Xu, Improved performance for polymer solar cells using CTAB-modified MoO3 as an anode buffer layer, Solar Energy Materials and Solar Cells, 2017,171, 72~84, SCI. IF=7.305.2. Huangzhong Yu*, Xinxin Huang, Yanping Li, Zuping Wu, Effect of methanol treatment on the performance of P3HT:PC71BM bulk heterojunction solar cells with various cathodes, Journal of Materials Science-Materials in Electronics, 2017, 28, 12909~12915. SCI. IF=2.779.3. Yanping Li, Huangzhong Yu*, Xinxin Huang, Zuping Wu, Mingdong Chen, A simple synthesis method to prepare a molybdenum oxide hole-transporting layer for efficient polymer solar cells, RSC Advances, 2017, 7, 7890~7900. SCI. ESI高引论文, IF=4.036.2015-2016年发表论文1. Huangzhong Yu*, Yanping Li, Yifan Dong, Xinxin Huang, Fabrication and Optimization of Polymer Solar Cells Based on P3HT:PC70BM System, Interational Journal of Photoenergy, 2016, 2016, 1~8. SCI. IF=2.113.2. Yanping Li, Huangzhong Yu*, Yifan Dong, Xinxin Huang, Anode Interface Modification of Organic Solar Cells with Solution-Prepared MoO3, Progress in Chemistry, 2016, 28, 1170~1185. SCI. 3. Huangzhong Yu*, Yuncheng Ge, Shengwei Shi, Improving power conversion efficiency of polymer solar cells by doping copper phthalocyanine, Electrochimica Acta, 2015, 180, 645~650. SCI. IF=7.336.4. Huangzhong Yu*, Yuncheng Ge, Yifan Dong, Wenyao Liang, Annealing treatment effects on the performances of solar cells based on different composition systems, Optoelectronics and Advanced Materials-Rapid Communications, 2015, 9(3-4), 372~376. SCI. 5. Wenyao Liang*, Yuxia Zhang, Wuhe Chen, Huangzhong Yu, Magnetically tunable multi-way splitters based on unidirectional properties of magnetic metamaterials, AOPC 2015: Optical Design and Manufacturing Technologies, 2015.3, 9676. SCI.2015年以前发表的文章没有列出. 出版专著和教材 1. 主编教材一本《近代物理实验》;2. 参编教材一本《大学物理实验》;3. 参编外文书籍一本,Book name: Research Trends and Challenges in Physical Science。 科研创新 申请和获授权的国家发明专利近40余项,近年来部分授权(及申请)专利如下。1. 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,专利号:ZL 202011488757.1,授权公布号:CN 112635674B,授权日:2023年1月6日。2. 发明专利,於黄忠,黄承稳,张健开,孙亚鹏,黄金珍,杨宋,谭靖宇,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,专利号:ZL 2021 1 0770901.9,授权公布号:CN 113690373B,授权日:2023年2月14日。3. 发明专利,於黄忠,黄金珍,通过引入GHK-Cu调节活性层结晶度和相分离制备高效三元有机太阳能电池及其方法,专利号: ZL 202110845662.9, 授权公告号:CN 113838982 B, 授权公告日:2023年05月23日。4. 发明专利, 於黄忠, 张健开, 一种基于3-噻吩乙酸界面修饰层的钙钛矿太阳能电池及其制备方法,专利号: ZL 2020 1 1493791.8, 授权公告号:CN 112635675 B, 授权公告日:2023年11月3日。5. 发明专利, 於黄忠,张健开,陈金雲,黄承稳,侯春利,王键鸣, 一种多巴胺掺杂钙钛矿太阳能电池及其制备方法, 专利号:ZL 202010368403.7,授权公告号:CN111540830B,授权日:2022年2月8日。6. 发明专利, 於黄忠,侯春利, 一种Ti3C2Tx掺杂ZnO为阴极修饰层材料的有机太阳能电池及其制备方法,专利号:ZL 201911208959.3,授权公告号: CN110931643B,授权日:2022年2月7日。7. 发明专利, 於黄忠,王键鸣,侯春利,陈金雲,黄承稳,以PBDB-T:ITIC:α-In2Se3为活性层的有机太阳能电池及其制备方法,专利号: ZL 202010432346.4,授权公告号: CN111682111B,授权日:2022年1月10日。8. 发明专利, 於黄忠, 谭靖宇,孙亚鹏,王键鸣,黄承稳,侯春利,张健开,黄金珍,杨宋,活性层掺杂了GeSe二维纳米材料的有机太阳能电池及其制备方法,专利号: ZL 202110096942.4,授权公告号:CN112909176B,授权日:2022年5月7日。9. 发明专利, 於黄忠, 杨宋,孙亚鹏,黄金珍,黄承稳,王键鸣,张健开,谭靖宇,一种界面修饰有机太阳能电池及其制备方法,专利号: ZL 202110547016.4, 授权公告号:CN113410388B,授权日:2022年5月7日。10. 发明专利, 孙亚鹏,於黄忠,张健开,一种基于含三嗪的氯苯反溶剂的钙钛矿太阳能电池及其制备方法,专利号: ZL 202110640360.8,授权公告号:CN113421976B,授权日:2022年8月16日。11. 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、有机太阳能电池及其制备方法,专利号: ZL 2018109208145,授权公布号:CN109256469B,授权日:2022年8月12日。12. 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,专利号: ZL 201810825222.5,授权公告号:CN109244241B,授权日:2021年5月11日。13. 发明专利, 於黄忠,巫祖萍,黄承稳,陈金雲,侯春利,王键鸣, 一种Bi2OS2沉积的波纹状ZnO纳米棒阵列及制备与应用,专利号: ZL 110194481A,授权公布号:CN110194481B,授权日:2021年9月21日。14. 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,专利号: ZL 201910938428.3,授权公布号:CN110676386B,授权日:2021年9月21日。15. 发明专利, 於黄忠,侯春利, 一种有机-无机阴极修饰层材料的有机太阳能电池及其制备方法,专利号: ZL 201911208957.4,授权公布号:CN 110828671B,授权日:2021年8月6日。16. 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,专利号: ZL 201810824768.9, 授权公布号:CN109244240B,授权日:2020年6月19日。17. 发明专利, 於黄忠,巫祖萍,张弜,陈金雲,黄欣欣,黄承稳, 一种Bi2O2S包覆的纳米棒阵列的制备方法与在太阳能电池的应用,专利号: ZL 201810824753.2, 授权公布号:CN109216552B,授权日:2020年7月28日。18. 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,专利号: ZL 201810825225.9, 授权公布号:CN109216563B,授权日:2020年9月22日。19. 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,专利号: ZL 201810824771.0, 授权公布号:CN109216553B,授权日:2020年9月22日。20. 发明专利, 卢治霖,马守然,於黄忠,黎振超,温恒睿,叶光照, 一种基于激光干涉的非接触式玻璃温度测量系统及方法,专利号: ZL 201810468493.X, 授权公告号:CN108680263B,授权日:2020年2月18日。21. 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,专利号: ZL 201810824964.6, 授权公告号:CN109301070B,授权日:2020年8月18日。22. 发明专利, 於黄忠,王键鸣,张弜,侯春利,巫祖萍,黄承德,陈金云, 一种以In2Se3掺杂PEDOT:PSS为空穴传输层的有机太阳能电池及其制备方法,专利号: ZL 201910253959.9, 授权公告号:CN109935697B,授权日:2020年11月24日。23. 发明专利, 於黄忠,王键鸣,一种以In2Se3为空穴传输层的有机太阳能电池及其制备方法,专利号: ZL 201910253985.1, 授权公告号:CN109935698B,授权日:2020年11月24日。24. 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,专利号: ZL 201910049796.2, 授权公告号:CN109904326B,授权日:2020年11月24日。25. 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,专利号: ZL 201910525590.2, 授权公告号:CN110350089B,授权日:2020年9月22日。26. 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,专利号: ZL 201910547344.7, 授权公告号:CN110350090B,授权日:2020年9月22日。27. 发明专利, 卢治霖,叶光照,於黄忠,温恒睿,马守然,黎振超, 一种基于激光干涉的玻璃线膨胀系数测量系统及方法,申请号:2018104679838,申请公布号:CN108362730A。28. 发明专利, 孙亚鹏,於黄忠,张健开,一种基于含三嗪的氯苯反溶剂的钙钛矿太阳能电池及其制备方法,申请号:202110640360.8 29. 发明专利,於黄忠,余波,一种以石墨氮化碳g-C3N5掺杂活性层的钙钛矿太阳能电池及其制备方法,申请号:202210849132.630. 发明专利,黄承稳,於黄忠,一种基于氨基酸修饰MXene为电子传输层的有机太阳能电池及其方法,申请号:202210809707.131. 发明专利,於黄忠,张钰宁,一种基于MBene二维纳米材料界面修饰层的钙钛矿太阳能电池及其制备方法,申请号:202310590496.132. 发明专利,王楷,姚若河,王洪,余波,於黄忠, 一种新型高效率钙钛矿太阳能电池器件结构及其制备方法, 申请号:202310415708233. 发明专利,於黄忠,余波,孙亚鹏,张健开,一种以胍盐掺杂电子传输层的钙钛矿太阳能电池及其制备方法, 申请号:202311392470.234. 实用新型, 卢治霖,马守然,於黄忠,黎振超,温恒睿,叶光照, 一种基于激光干涉的非接触式玻璃温度测量系统,授权公告号:CN208383341U,授权日:2019年1月15日。35. 实用新型, 於黄忠,翁创鸿,罗家健,黄阳灿, 一种多普勒效应测声速教学演示实验装置,授权公告号:CN209000324U,授权日:2019年6月18日。36. 实用新型, 於黄忠,黄钰淇,林惠敏,罗家健,黄阳灿,翁创鸿, 一种多普勒效应测声速教学演示实验装置,授权公告号:CN209947235U,授权日:2019年6月18日。37. 实用新型, 卢治霖,叶光照,於黄忠,温恒睿,马守然,黎振超, 一种基于激光干涉的玻璃线膨胀系数测量系统, 授权公告号:CN208297400U,授权日:2018年12月28日。2018年以前授权的专利没有列出. 指导学生情况 已毕业的三名博士生分别进入高校从事教学与科研工作;已毕业的十几名硕士分别进入华为、比亚迪、广东省邮科院等单位工作。 我的团队 目前在读博士生5名,硕士生5名,欢迎具有物理、材料、化学专业背景的学生报考,或申请博士后职位。 |