重庆大学陈江照教授课题组招聘硕士、博士和博士后（长期有效）

作者 M201170198: 来源: 小木虫 650 13 举报帖子

一、个人简介
陈江照，重庆大学研究员，博士生导师，重庆大学“百人计划”入选者。2016年6月在华中科技大学武汉光电国家研究中心韩宏伟教授课题组获得工学博士学位；2016年8月至2019年2月于韩国成均馆大学化学与工程学院从事博士后研究，合作导师为全固态钙钛矿太阳能电池创始人Nam-Gyu Park教授；2019年3月至2019年11月于香港大学电子与电器工程学院从事博士后研究，合作导师为Wallace C.H. Choy (蔡植豪)教授。长期从事新型薄膜太阳能电池研究，面向国家对廉价清洁能源的重大需求，服务于国家“碳达峰”与“碳中和”重大能源发展战略目标，围绕新型薄膜太阳能电池面临的功率转换效率、稳定性、成本等关键核心技术指标，针对相关关键科学技术问题，从材料设计与合成、器件制备与性能优化、半导体物性精细调控、机理分析、添加剂分子工程、表界面分子工程等角度对新型薄膜太阳能电池进行了系统深入的研究与探索，取得了一系列创新性重要研究成果。迄今为止，在Science、Advanced Materials等国际知名学术期刊上发表SCI学术论文40篇，SCI总引用3900余次。以第一、共同第一或通讯作者身份发表30篇SCI论文，其中4篇入选ESI高被引论文，1篇入选ESI热点论文，5篇论文单篇引用超过100次，影响因子大于10的论文有18篇，包括Advanced Materials (4篇)，Advanced Energy Materials (3篇)，ACS Energy Letters (3篇)，Nano Energy (1篇)，Small Methods (2篇)，Journal of Materials Chemistry A (2篇), Chemical Engineering Journal (2篇)，Green Chemistry (1篇)。申请发明专利4项。主持或者参与国家自然科学基金、重庆市自然科学基金、韩国国家研究基金、中央高校基本科研业务费、留学人员回国创业创新支持计划、重庆大学百人计划科研启动经费及横向经费多项。在国内外重要学术会议做邀请报告10余次。长期担任Advanced Materials、Advanced Energy Materials、ACS Energy Letters、Advanced Functional Materials、Chemical Engineering Journal等国际著名期刊的审稿人。目前担任Science Frontiers和化学与化工研究期刊的编委，担任Materials Reports: Energy期刊的客座编辑，担任能源材料与器件专家委员会常务委员，担任成渝地区双城经济圈科技创新联盟项目评估咨询专家。
二、主要研究方向
1. 钙钛矿太阳能电池研究
2. 光电探测器研究
3. 发光二极管研究
三、代表性研究成果(#代表共同第一作者和*代表通讯作者)
1. Cong Zhang, Huaxin Wang, Haiyun Li, Qixin Zhuang, Cheng Gong, Xiaofei Hu, Wensi Cai, Shuangyi Zhao, Jiangzhao Chen*, Zhigang Zang*. Simultaneous passivation of bulk and interface defects through synergistic effect of anion and cation toward efficient and stable planar perovskite solar cells. Journal of Energy Chemistry 2021, (IF = 9.676)
2. Pengyu Su #, Le Bai#, Huan Bi, Baibai Liu, Shi Chen, Donghwa Lee, Hua Yang, Cong Chen*, Zhigang Zang, Jiangzhao Chen*. Interfacial gradient energy band alignment modulation via ion exchange reaction toward efficient and stable methylammonium-free Dion-Jacobson quasi-2D perovskite solar cells. Journal of Power Sources 2021, 506, 230213. (IF = 9.127)
3. Baibai Liu, Huan Bi, Dongmei He, Le Bai, Wenqi Wang, Hongkuan Yuan, Qunliang Song, Pengyu Su, Zhigang Zang, Tingwei Zhou*, Jiangzhao Chen*. Interfacial Defect Passivation and Stress Release via Multi-Active-Site Ligand Anchoring Enables Efficient and Stable Methylammonium-Free Perovskite Solar Cells. ACS Energy Letters 2021, 6(7), 2526−2538. (IF = 23.101)
4. Pengyu Su#, Le Bai#, Huan Bi, Baibai Liu, Dongmei He, Wenqi Wang, Xiaobing Cao,* Shi Chen, Donghwa Lee, Hua Yang, Zhigang Zang, Jiangzhao Chen*. Crystal orientation modulation and defect passivation for efficient and stable methylammonium-free Dion-Jacobson quasi-2D perovskite solar cells. ACS Applied Materials & Interfaces 2021, 13(25), 29567–29575. (IF = 9.229)
5. Xiaohui Ma, Liqun Yang, Xueni Shang, Mengjia Li, Deyu Gao, Cuncun Wu, Shijian Zheng*, Boxue Zhang, Jiangzhao Chen*, Cong Chen*, Hongwei Song*. Grain boundary defect passivation by in situ formed wide-bandgap lead sulfate for efficient and stable perovskite solar cells. Chemical Engineering Journal 2021, 426, 130685. (IF = 13.273)
6. Lisha Xie, Junni Xie, Shurong Wang, Bin Chen, Chenguang Yang, Zhen Wang, Xiaobo Liu, Jiangzhao Chen, Kun Jia*, Feng Hao*. Fluorinated oligomer wrapped perovskite crystals for inverted MAPbI3 solar cells with 21% efficiency and enhanced stability. ACS Applied Materials & Interfaces 2021, 13(22), 26093–26101. (IF = 9.229)
7. Jiangzhao Chen*, Nam-Gyu Park*. Non-halide materials for efficient and stable perovskite solar cells. Small Methods 2021, 2100311. (IF = 14.188)
8. Xilai He#, Jiangzhao Chen#, Xiaodong Ren*, Lu Zhang, Yucheng Liu, Jiangshan Feng, Junjie Fang, Kui Zhao*, Shengzhong (Frank) Liu*. 40.1% record low-light-solar-cell-efficiency by holistic trap-passivation using micron-thick perovskite film. Advanced Materials 2021, 2100770. (IF = 30.849)
9. Lihua Zhu, Xian Zhang, Xueni Shang, Kaixiang Lei, Cuncun Wu, Boxue Zhang, Cong Chen*, Shijian Zheng, Hongwei Song, Jiangzhao Chen*. Trap state passivation by rational ligand molecule engineering toward efficient and stable perovskite solar cells exceeding 23% efficiency. Advanced Energy Materials 2021, 11(20), 2100529. (IF = 29.368)
10. Wensi Cai, Haiyun Li, Mengchao Li, Meng Wang, Huaxin Wang, Jiangzhao Chen, Zhigang Zang*. Opportunities and challenges of inorganic perovskites in high-performance photodetectors. Journal of Physics D: Applied Physics 2021, 54, 293002.
11. Huan Bi, Baibai Liu, Dongmei He, Le Bai, Wenqi Wang, Zhigang Zang*, Jiangzhao Chen*. Interfacial defect passivation and stress release by multifunctional KPF6 modification for planar perovskite solar cells with enhanced efficiency and stability. Chemical Engineering Journal 2021, 418, 129375. (IF = 13.273)
12. Shuangyi Zhao, Wensi Cai, Huaxin Wang, Zhigang Zang*, Jiangzhao Chen*. All-inorganic lead-free perovskite (-like) single crystal: Synthesis, properties, and applications. Small Methods 2021, 5(5), 2001308. (IF = 14.188)
13. Xiaobing Cao, Guoshuai Zhang, Long Jiang, Yifan Cai, Yu Wang, Xin He, Qingguang Zeng, Jiangzhao Chen*, Yi Jia*, Jinquan Wei*. Achieving environment-friendly production of CsPbBr3 films for efficient solar cells via precursor engineering. Green Chemistry 2021, 23, 2104-2112. (IF = 10.182)
14. Huan Bi, Xin Zuo, Baibai Liu, Dongmei He, Le Bai, Wenqi Wang, Xiong Li, Zeyun Xiao, Kuan Sun, Qunliang Song, Zhigang Zang*, Jiangzhao Chen*. Multifunctional organic ammonium salt modified SnO2 nanoparticles toward efficient and stable planar perovskite solar cells. Journal of Materials Chemistry A 2021, 9(7), 3940-3951. (IF = 12.732)
15. Jiawei Zheng#, Jiangzhao Chen#, Dan Ouyang, Zhanfeng Huang, Xinjun He, Jinwook Kim, Wallace C. H. Choy*. Critical role of functional groups in defect passivation and energy band modulation in efficient and stable inverted perovskite solar cells exceeding 21% efficiency. ACS Applied Materials & Interfaces 2020, 12(51), 57165–57173. (IF = 9.229)
16. Jiangzhao Chen*, Wallace C. H. Choy*. Efficient and stable all-inorganic perovskite solar cells. Solar RRL 2020, 4(11), 2000408. (IF = 8.582)
17. Jiangzhao Chen*, Nam-Gyu Park*. Materials and methods for interface engineering towards stable and efficient perovskite solar cells. ACS Energy Letters 2020, 5(8), 2742–2786. (IF = 23.101)
18. Huaxin Wang, Haiyun Li, Siliang Cao, Ming Wang, Jiangzhao Chen, Zhigang Zang*. Interface modulator of ultrathin magnesium oxide for low-temperature-processed inorganic CsPbIBr2 perovskite solar cells with efficiency over 11%. Solar RRL 2020, 2000226. (IF = 8.582)
19. Siliang Cao, Huaxin Wang, Haiyun Li, Jiangzhao Chen, Zhigang Zang*. Critical role of interface contact modulation in realizing low-temperature fabrication of efficient and stable CsPbIBr2 perovskite solar cells. Chemical Engineering Journal 2020, 394, 124903. (IF = 13.273)
20. Jiangzhao Chen#, Xing Zhao#, Seul-Gi Kim, Nam-Gyu Park*. Multifunctional chemical linker imidazoleacetic acid hydrochloride for 21% efficient and stable planar perovskite solar cells. Advanced Materials 2019, 31(39), 1902902. (IF = 30.849, ESI高被引论文)
21. Jiangzhao Chen, Nam-Gyu Park*. Causes and solutions of recombination in perovskite solar cells. Advanced Materials 2019, 31(47), 1803019. (IF = 30.849, ESI高被引论文, ESI热点论文)
22. Jiangzhao Chen, Seul-Gi Kim, Nam-Gyu Park*. FA0.88Cs0.12PbI3-x(PF6)x interlayer formed by ion exchange reaction between perovskite and hole transporting layer for improving photovoltaic performance and stability. Advanced Materials 2018, 30(40), 1801948. (IF = 30.849)
23. Jiangzhao Chen, Ja-Young Seo, Nam-Gyu Park*. Simultaneous improvement of photovoltaic performance and stability by in-situ formation of 2-Dimensioanl perovskite at (FAPbI3)0.88(CsPbBr3)0.12/CuSCN interface. Advanced Energy Materials 2018, 8(12), 1702714. (IF = 29.368, ESI高被引论文)
24. Jiangzhao Chen#, Yaoguang Rong#, Anyi Mei, Yuli Xiong, Tongfa Liu, Yusong Sheng, Pei Jiang, Li Hong, Yanjun Guan, Xiaotong Zhu, Xiaomeng Hou, Miao Duan, Jianquan Zhao, Xiong Li, Hongwei Han*. Hole-conductor-free fully printable mesoscopic solar cell with mixed-anion perovskite CH3NH3PbI(3−x)(BF4)x. Advanced Energy Materials 2016, 6(5), 1502009. (IF = 29.368)
25. Jiangzhao Chen#, Yuli Xiong#, Yaoguang Rong, Anyi Mei, Yusong Sheng, Pei Jiang, Yue Hu, Xiong Li, Hongwei Han*. Solvent effect on the hole-conductor-free fully printable perovskite solar cells. Nano Energy 2016, 27, 130-137. (IF = 17.881)
26. Lin Xie#, Jiangzhao Chen#, Parth Vashishtha, Xing Zhao, Gwang-Su Shin, Subodh Mhaisalkar*, Nam-Gyu Park*. Importance of functional group in cross-linking methoxysilane additives for high efficiency and stable perovskite solar cells. ACS Energy Letters 2019, 4(9), 2192-2200. (IF = 23.101)
27. Jiangzhao Chen, Seul-Gi Kim, Xiaodong Ren, Hyun Suk Jung, Nam-Gyu Park*. Effect of bidentate and tridentate additives on the photovoltaic performance and stability of perovskite solar cells. Journal of Materials Chemistry A 2019, 7(9), 4977-4987. (IF = 12.732)
28. Jiangzhao Chen, Donghwa Lee*, Nam-Gyu Park*. Stabilizing the Ag electrode and reducing J-V hysteresis through suppression of iodide migration in perovskite solar cells. ACS Applied Materials & Interfaces 2017, 9(41), 36338-36349. (IF = 9.229)
29. Jiangzhao Chen, Nam-Gyu Park*. Inorganic hole transporting materials for stable and high efficiency perovskite solar cells. Journal of Physical Chemistry C 2018, 122(25), 14039−14063. (IF = 4.126, ESI高被引论文)
30. Jiangzhao Chen, Songguk Ko, Linfeng Liu, Yusong Sheng, Hongwei Han, Xiong Li*. The effect of porphyrins suspended with different electronegative moieties on the photovoltaic performance of monolithic porphyrin-sensitized solar cells with carbon counter electrodes. New Journal of Chemistry 2015, 39(4), 2889-2900. (IF = 3.591)
31. Jiangzhao Chen, Songguk Ko, Linfeng Liu, Yusong Sheng, Hongwei Han, Xiong Li*. The effect of different alkyl chains on the photovoltaic performance of D–π–A porphyrin-sensitized solar cells. New Journal of Chemistry 2015, 39(5), 3736-3746. (IF = 3.591)
32. Jiangzhao Chen, Yusong Sheng, Songguk Ko, Linfeng Liu, Hongwei Han, Xiong Li*. Push–pull porphyrins with different anchoring group orientations for fully printable monolithic dye-sensitized solar cells with mesoscopic carbon counter electrodes. New Journal of Chemistry 2015, 39(7), 5231-5239. (IF = 3.591)
33. Seul-Gi Kim#, Jiangzhao Chen#, Ja-Young Seo, Dong-Ho Kang, Nam-Gyu Park*. Rear surface passivation by melaminium iodide additive for stable and hysteresis-less perovskite solar cells. ACS Applied Materials & Interfaces 2018, 10(30), 25372-25383. (IF = 9.229)
34. Mei Lyu#, Jiangzhao Chen#, Nam-Gyu Park*. Improvement of efficiency and stability of CuSCN-based inverted perovskite solar cells by post-treatment with potassium thiocyanate. Journal of Solid State Chemistry 2019, 269, 367-374. (IF = 3.498)
35. Anyi Mei, Xiong Li, Linfeng Liu, Zhiliang Ku, Tongfa Liu, Yaoguang Rong, Mi Xu, Jiangzhao Chen, Ying Yang, Michael Grätzel, Hongwei Han*. A hole-conductor-free, fully printable mesoscopic solar cell with high stability. Science 2014, 345(6194), 295-298. (IF = 47.728, ESI高被引论文)
36. Linfeng Liu, Jiangzhao Chen, Zhiliang Ku, Xiong Li, Hongwei Han*. Unsymmetrical squaraine sensitizers containing auxiliary arylamine donor for NIR-harvesting on dye-sensitized solar cell. Dyes and Pigments 2014, 106, 128-135. (IF = 4.889)
37. Xing Zhao, Jiangzhao Chen, Nam‐Gyu Park*. Importance of oxygen partial pressure in annealing nio film for high efficiency inverted perovskite solar cells. Solar RRL 2019, 3(4), 1800339. (IF = 8.582)
38. Linfeng Liu，Xiong Li, Jiangzhao Chen, Yaoguang Rong, Zhiliang Ku, Hongwei Han*. Improvement of thiolate/disulfide mediated dye-sensitized solar cells through supramolecular lithium cation assembling of crown ether. Scientific Report 2013, 3, 2413. (IF = 4.379)
39. Yaoguang Rong, Zhiliang Ku, Mi Xu, Linfeng Liu, Min Hu, Ying Yang, Jiangzhao Chen, Anyi Mei, Tongfa Liu, Hongwei Han*. Efficient monolithic quasi-solid-state dye-sensitized solar cells based on poly(ionic liquids) and carbon counter electrodes. RSC Advances, 2014, 4(18), 9271–9274. (IF = 3.361)
40. Mi Xu, Guanghui Liu, Xiong Li, Heng Wang, Yaoguang Rong, Zhiliang Ku, Min Hu, Ying Yang, Linfeng Liu, Tongfa Liu, Jiangzhao Chen, Hongwei Han*. Efﬁcient monolithic solid-state dye-sensitized solar cell with a low-cost mesoscopic carbon based screen printable counter electrode. Organic Electronics 2013, 14(2), 628–634. (IF = 3.721)
四、招生对象和要求（硕士、博士和博士后）
1. 诚实守信，热爱科研，积极向上，善于沟通，对工作认真负责，勇于创新，具有良好的团队合作精神。
2. 有钙钛矿太阳能电池、有机太阳能电池、染料敏化太阳能电池、量子点太阳能电池、光电探测器、发光二极管等学术研究背景者优先考虑。
3. 具有独立从事科学研究、撰写学术论文及专利经验者优先考虑。
4. 具有物理、材料及化学专业背景者优先考虑。
五、福利与待遇（博士后）
1. 拥有良好先进的科研条件、浓厚的学术氛围、优质的合作导师；
2. 可作为负责人申请博士后科学基金、国家自然科学基金及省、市各级课题；
3. （1）薪酬待遇（薪酬待遇含工资、租房补贴、社保、公积金及导师配套）
①特别资助：37-40万元/年，另加学校科研奖励。
②重点资助：27-30万元/年，另加学校科研奖励。
入选国家博新计划和国际交流计划给予配套资助20万元。
（2）其他待遇
①对海外毕业博士生重庆市另一次性资助10万元科研经费。
②申请重庆大学“弘深博士后青年教师”科学基金。
③参加学校专职科研系列专业技术职务任职资格评审。
④参加高水平国际学术会议，学校资助1.5万元。
⑤享受在职职工同等的福利待遇，其子女可入读我校幼儿园、附属小学及中学。
⑥出站后留渝工作重庆市资助15万元。
六、联系方式
联系人：陈江照教授
电话：13883821370
邮箱：jiangzhaochen@cqu.edu.cn
热忱欢迎有志于从事科学研究的同学申请我的硕士、博士（包括直博、硕博连读及统招博士）和博士后，让我们携手将钙钛矿太阳能电池推向大规模商业化应用，为人类可持续发展提供强有力的能源保障！返回小木虫查看更多

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