严岑琪,理学博士,特聘副研究员,入选四川省高层次青年人才项目,四川大学双百人才工程。2013年于山东大学材料学院材料物理专业获理学学士学位,2018年于北京大学工学院力学(先进材料与力学)专业获理学博士学位(导师:占肖卫教授)。2018至2022年在香港理工大学电子与资讯工程学系进行博士后研究(导师:李刚教授)。以第一作者或通讯作者在Nat. Rev. Mater., Adv. Mater., Energy Environ. Sci., Adv. Energy Mater., Adv. Sci., Matter, Nano Energy等学术期刊发表论文22篇。共发表论文60余篇,总引用7000余次,H因子为35。单篇被引用超过100次的论文9篇,6篇入选ESI热点论文,10篇入选ESI高被引论文,若干论文入选中国百篇最具影响国际学术论文、2017-2021年中国材料科学领域热点论文,荣获2016年国际合成金属大会最佳墙报奖、首届川渝科技学术大会优秀论文一等奖等。严岑琪博士申请中国发明专利3项。担任Energy Environ. Mater.青年编委,Joule, Angew. Chem. Int. Ed., J. Mater. Chem. A等期刊的独立审稿人。
课题组计划每年招收多名博士生(本硕博贯通式培养、直博生、申请考核制)和多名硕士生(推免、考研)。同时非常欢迎川大本科在校生进入课题组学习和开展研究工作。课题组同美国、欧洲及国内多所顶尖名校保持着合作关系,非常乐意推荐本组优秀学生前往继续深造。我们非常欢迎对科学研究有着高度热情的同学加入我们的团队。优先考虑的学科背景包括高分子、材料、化学、物理、微电子、化工等,请有意向申请本组博士生、硕士生的同学与课题组王嘉宇老师(wangjiayu@scu.edu.cn)联系;请有意向申请本组本科生大创、本科生各类创业比赛、本科生学分制导师的同学与课题组李鸿祥老师(18643126862)联系。
严岑琪老师邮箱:yancenqi@scu.edu.cn
办公室:高分子学院科教楼506A
代表性论文(*为通讯作者,†为共同第一作者)
1.Yan, C.; Barlow, S.; Wang, Z.; Yan, H.; Jen, A. K. Y.; Marder, S. R. Zhan, X.* Non-fullerene acceptors for organic solar cells.Nat. Rev. Mater.2018, 3, 18003. (ESI hot paper, ESI highly cited paper)
2.Yan, C.; Qin,J.; Wang, Y.; Li, G.;* Cheng, P.* Emerging strategies toward mechanically robust organic photovoltaics: focus on active layer,Adv. Energy Mater.2022, 12, 2201087.
3. Wang, W.;†Yan, C.;† Lau.T-K.; Wang, J.; Liu, K.; Fan, Y.; Lu, X.; Zhan, X.* Fused hexacyclic nonfullerene acceptor with strong near-infrared absorption for semitransparent organic solar cells with 9.77% efficiency.Adv. Mater.2017, 29, 1701308. (ESI hot paper, ESI highly cited paper)
4. Ma, R.;†Yan, C.;† Fong, PWK.; Yu. J.; Liu, H.; Yin, J.; Huang, J.; Lu, X.; Yan, H.; Li, G.* In-situ and Ex-situ Investigations on Ternary Strategy and Co-solvents Effects towards High-Efficiency Organic Solar Cells,Energy Environ. Sci.2022, DOI:10.1039/D2EE00740A.
5. Ying, H.;†,*Yan, C.;†,* Hu, H.;†,* Ho, J.; Zhan, X.; Li, G.; So, S.* Recent progress of all-polymer solar cells -From chemical structure and device physics to photovoltaic performance.Mater. Sci. Engineer. R Rep.2020, 140, 100542.
6. Tang, H.;† Chen, H.;†Yan, C.;* Huang, J.; Fong, P.; Lv, J.; Hu, D.; Singh, R.; Kumar, M.; Xiao, Z.; Kan, Z.; Lu, S.;* Li, G.* Delicate Morphology Control Triggers 14.7% Efficiency All-Small-Molecule Organic Solar Cells.Adv. Energy Mater.2020, 10, 2001076. (ESI highly cited paper)
7.Yan, C.; Yu, J.; Li, Y.; Fong, P.; Ding, R.; Liu, K.; Ren, Z.; Xia, H.; Lu, X.; Hao, J.; Li, G.* Ambipolar-Transport Wide-Bandgap Perovskite Interlayer for Organic Photovoltaics with over 18% efficiency,Matter2022, 5, 1-13.
8.Yan, C.;† Tang, H.;† Ma, R.;† Zhang, M.; Liu, T.;* Lv, J.; Huang, J.; Yang, Y.; Xu, T.; Kan, Z.; Yan, H.; Liu, F.;*Lu, S.; Li, G.* Synergy of liquid-crystalline small-molecule and polymeric donors delivers uncommon morphology evolution and 16.6%-efficiency organic photovoltaics.Adv. Sci.2020, 7, 2000149.
9. Tang, H.;†Yan, C.;†,* Huang, J.; Kan, Z.; Xiao, Z.; Sun, K.; Li, G.;* Lu, S.* Benzodithiophene-based Small-molecule Donors for the Next-generation All-Small-Molecule Organic Photovoltaics,Matter2020, 3, 1403-1432.
10. Yu, J.;* Liu, X.; Zhong, Z.;Yan, C.;* Liu, H.; Fong, P.; Liang, Q.; Lu, X.; Li, G.*Copper phosphotungstate as low cost, solution-processed, stable inorganic anode interfacial material enables organic photovoltaics with over 18% efficiency.Nano Energy2022, DOI:10.1016/j.nanoen.2022.106923.