
张光烨 助理教授
个人介绍:
张光烨,博士,助理教授,深圳市海外高层次“孔雀计划”人才(B类)。2009年本科毕业于中国科学技术大学材料物理专业,随后在美国加州大学洛杉矶分校(UCLA)攻读博士学位,2015年博士毕业于UCLA化学系。2016年起在香港科技大学进行博士后研究,2017年担任香港科技大学深圳研究院研究助理教授。2018年作为共同创始人创办了有机光伏公司以推动有机光伏的产业化进程。2020年加入深圳技术大学。主要研究兴趣是有机半导体材料、器件及物理,在有机光伏领域有十余年的研发或产业化经验。累计发表论文60余篇,引用四千余次,入选第3期全球前2%顶尖科学家榜单(2020年度科学影响力排行榜)。杂志包括Chemical Reviews,Advanced Materials, Advanced Energy Materials, Advanced Functional Materials, Joule等。
教育背景:
2009-2015 美国加利福尼亚大学洛杉矶分校,博士研究生
2005-2009 中国科学技术大学,本科
工作经历:
2020-至今 深圳技术大学,新材料与新能源学院,助理教授
2019-2020 eFlexPV Limited,创始人及CEO
2017-2019 香港科技大学深圳研究院,研究助理教授
2016-2017 香港科技大学,博士后
2015 Los Angeles Harbor College,讲师
2015 美国加利福尼亚大学洛杉矶分校,讲师
主要荣誉:
• 2019年入选深圳市海外高层次B类人才
研究方向:
1.有机光伏器件工程,器件物理
2.有机半导体薄膜形貌学
代表论文(†Contributed equally; *Corresponding Author):
1.G. Zhang,†J. Zhao,†P. C. Y. Chow,†K. Jiang,†J. Zhang, J. Zhang, F. Huang and H. Yan,* “Non-Fullerene Acceptor Molecules for Bulk Heterojunction Organic Solar Cells”, Chemical Reviews, 118, (2018), 3447-3507
2.S. Chen,† G. Zhang,†J. Liu, H. Yao, J. Zhang, T. Ma, Z. Li, and H. Yan,* “An All-Solution Processed Recombination Layer with Mild Post-Treatment Enabling Efficient Homo-Tandem Non-fullerene Organic Solar Cells”, Advanced Materials, 29, (2017), 1604231.
3.L. Arunagiri,†Z. Peng,†X. Zou,†H. Yu, G. Zhang,*Z. Wang, J. Y. L. Lai, J. Zhang, Y. Zheng, C. Cui, F. Huang, Y. Zou, K. S. Wong, P. C. Y. Chow,* H. Ade,* and H. Yan*, “Selective Hole and Electron Transport in Efficient Quaternary Blend Organic Solar Cells”, Joule, 4, (2020), 1790-1805
4.K. Jiang,† G. Zhang,†* G. Yang, J. Zhang, Z. Li, T. Ma, W. Ma, H. Ade, and H. Yan,* “Multiple Cases of Efficient Non-Fullerene Ternary Organic Solar Cells Enabled by An Effective Morphology Control Method”, Advanced Energy Materials, 8, (2018), 1701370
5.H. Yao,†L.-K. Ma,†H. Yu,†J. Yu, P. C.Y. Chow, W. Xue, X. Zou, Y. Chen, J. Liang, L. Arunagiri , F. Gao, H. Sun,*G. Zhang,*W. Ma,* and H. Yan,* “All-Polymer Solar Cells with over 12% Efficiency and a Small Voltage Loss Enabled by a Polymer Acceptor based on an Extended Fused Ring Core”, Advanced Energy Materials, (2020), 2001408
6.L. Arunagiri,† G. Zhang,†*, H. Hu,†H. Yao, K. Zhang, Y. Li, P. C. Y. Chow, H. Ade, H. Yan.* “Temperature-Dependent Aggregation Donor Polymers Enable Highly Efficient Sequentially Processed Organic Photovoltaics Without the Need of Orthogonal Solvents”, Advanced Functional Materials, (2019), 1902478
7.T. Liu,†W. Gao,†Y. Wang, T. Yang, R. Ma, G. Zhang,* C. Zhong, W. Ma,* H. Yan,* C. Yang,* “Unconjugated Side-Chain Engineering Enables Small Molecular Acceptors for Highly Efficient Non-Fullerene Organic Solar Cells: Insights into the Fine-Tuning of Acceptor Properties and Micromorphology”, Advanced Functional Materials, 29, (2019), 1902155.
8.S. Huang,† G. Zhang,†N. S. Knutson, M. T. Fontana, R. C. Huber, A. S. Ferreira, S. H. Tolbert,* B. J. Schwartz,* and Y. F. Rubin,* “Beyond PCBM: Methoxylated 1,4-Bisbenzyl [60]Fullerene Adducts for Efficient Organic Solar Cells”, Journal of Materials Chemistry A, 4, (2016), 416-424.
9.Y. Liu,†S. Chen,† G. Zhang,†P. C. Y. Chow and H. Yan,* “A Wide Bandgap Conjugated Polymer Based on a Vertically-Connected Benzodithiophene Unit Enabling Efficient Non-Fullerene Polymer Solar Cells”, Journal of Materials Chemistry A, 5, (2017), 15017-15020
10.G. Zhang,†R. C. Huber,†A. S. Ferreira,†S. D. Boyd, C. K. Luscombe, S. H. Tolbert,* and B. J. Schwartz,* “Crystallinity Effects in Sequentially Processed and Blend-Cast Bulk-Heterojunction Polymer/Fullerene Photovoltaics”, Journal of Physical Chemistry C118, (2014), 18424-18435.
11.G. Zhang,†S. A. Hawks†C. Ngo, L. T. Schelhas, D. T. Scholes, H. Kang, J. C. Aguirre, S. H. Tolbert, and B. J. Schwartz,* “Extensive Penetration of Evaporated Electrode Metals into Fullerene Films: Intercalated Metal Nanostructures and Influence on Device Architecture”ACS Applied Materials & Interfaces, 7, (2015), 25247-25258.
12.T. Liu,†W. Gao,† G. Zhang,* L. Zhang, J. Xin, W. Ma, C. Yang,* H. Yan,* C. Zhan,* and J. Yao, “A High-Performance Non-Fullerene Acceptor Compatible with Polymers with Different Bandgaps for Efficient Organic Solar Cells”, Solar RRL, 3, (2019), 1800376.
13.R. Ma,†Y. Chen,†T. Liu, Y. Xiao, Z. Luo, M. Zhang, S. Luo, X. Lu,* G. Zhang,* Y. Li, H. Yan, and K. Chen,* “Improving the performance of near infrared binary polymer solar cells by adding a second non-fullerene intermediate band-gap acceptor”, Journal of Materials Chemistry C, 8, (2020), 909-915
14.R. Ma, G. Li, D. Li, T. Liu,* K. Chen, G. Zhang,*Z. Wang, M. Zhang, S. Luo, T. Yang, Z. Luo, F. Liu, H. Yan,* B. Tang,* “Understanding the Effect of End Group Halogenation in Tuning Miscibility and Morphology of High-performance Small Molecular Acceptors”, Solar RRL,4, (2020), 2000250
15.R. Ma,†T. Liu,†* Z. Luo,†K. Gao,*, K. Chen, G. Zhang,*W. Gao, Y. Xiao, T.-K. Lau, Q. Fan, Y. Chen, L.-K. Ma,* H. Sun, G. Cai, T. Yang, X. Lu, E. Wang, C. Yang, A. K.-Y. Jen, and H. Yan,* “Adding a third component with reduced miscibility and higher LUMO level enables efficient ternary organic solar cells”, ACS Energy Letters, 5, (2020), 2711-2720
联系方式:
电子邮箱:zhangguangye@sztu.edu.cn