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方俊锋

教授

5357cc拉斯维加斯      

个人资料

  • 部门: 5357cc拉斯维加斯
  • 毕业院校:
  • 学位: 博士
  • 学历: 博士研究生
  • 邮编: 200241
  • 联系电话: 021-54836489
  • 传真:
  • 电子邮箱: jffang@phy.ecnu.edu.cn
  • 办公地址: 物理楼435室
  • 通讯地址: 上海市闵行区东川路500号物理楼435室,200241

教育经历

1997.09-2001.07,武汉大学,学士学位
2001.09-2006.07,中科院长春应化所高分子物理与化学国家重点实验室,博士学位


工作经历

2006.09-2008.09,瑞典Umea大学物理系,博士后
2008.12-2010.12,英国剑桥大学化学系,博士后

2011.01-2019.04,中国科学院宁波材料技术与工程研究所,中科院百人计划研究员
2019.05-至今,     5357cc拉斯维加斯5357cc拉斯维加斯,教授

2019.06-至今,     5357cc拉斯维加斯纳光电集成与先进装备教育部工程研究中心 主任

个人简介

方俊锋,教授,博士生导师,国家杰青/中组部青年拔尖/中科院百人/中科院特聘研究员。在SCI学术期刊发表论文150余篇,SCI他引6000余次,其中以第一/通讯作者在Science、Joule、Sci.Adv.、Nat.Commun.J.Am.Chem.Soc.Angew.Chem.Int.Ed.Adv.Mater.Adv.Energy.Mater.Adv.Funct.Mater.、Nano.Lett 、ACS Energy.Lett.SCI杂志发表论文100余篇,第一和通讯作者论文多次被国际著名学者在ScienceNat.Photonics、Joule、Chem.RevChem.Soc.Rev、Acc. Chem. Res.J.Am.Chem.Soc.Angew.Chem.Int.Ed.、Adv.Mater.、Energy Environ. Sci.等借鉴、大篇幅详细介绍或专门作为亮点工作点评(Science论文被Joule专文亮点点评并评价为反型电池方向的重要里程碑,JACS论文被Angew.Chem.Int.Ed转文亮点评论和高度评价),授权PCT专利2项,中国专利15项。已培养博士/硕士研究生30余名,学生多次获得中科院院长奖(2次)、国家奖学金等各类奖励。主持国家杰出青年基金和面上项目(7)国家中组部青年拔尖人才、国家重点研发计划课题、中科院前沿科学重点研发计划、中科院百人计划、中科院特聘研究员计划、浙江省杰青和海外高层次引进特聘专家、中央高校优秀青年团队等国家和省部级项目10余项。美国、欧盟、波兰基金函评专家,国家中组部、科技部、教育部和基金委等项目函/会评专家,国家自然科学奖/上海市科技奖会评评审专家。多次在EMRSPIERS、中国化学会和材料学会光伏分会做邀请报告。上海市真空学会理事,中国激光杂志社青年编委,《表面技术》杂志青年编委。



社会兼职

中国激光杂志社青年编委,《表面技术》青年编委,上海真空学会理事,5357cc拉斯维加斯实验室建设与管理委员会委员。

科技部、教育部、中科院、基金委和其他省市科研项目/人才项目函评/会评专家。

国家自然科学奖/上海市科技奖会评专家。

美国NSF、欧盟、波兰基金评审专家,欧盟ERC项目评审专家。

Science、Nature、Nat.Mater.、Nat.Photonics.、Nat.Nanotech、Nat.Energy、Nat.Commun、Joule、J.Am.Chem.Soc.、Angew.Chem.Int.Ed.、Energy Environ. Sci.、Adv.Mater等国际期刊审稿人或仲裁人。

研究方向

钙钛矿太阳能电池界面材料与器件性能调控,钙钛矿太阳能电池稳定性与机制,高效反型钙钛矿太阳能电池

招生与培养

开授课程

1.太阳能电池材料与应用

2.物理化学

3.热学

科研项目

部分国家和省部级项目

  1. 国家杰出青年基金,反型钙钛矿太阳电池,2024.01-2028.12,400万,主持

  2. 国家自然科学基金面上项目, 选择性结晶调控提高锡铅钙钛矿电池性能, 2024.01-2027.12, 55万, 主持

  3. 国家重点研发计划课题,高性能低成本柔性光伏电池关键材料与模组研究及应用-界面与稳定性,2023-2025,283.2万,主持

  4. 中央高校优秀青年团队,新一代微纳结构及其光电性能调控,2023-2025,225万,主持

  5. 国家自然科学基金面上项目,金属电极的化学防腐提高钙钛矿太阳能电池的稳定性及其机理研究,2022.01-2025.1258万,主持

  6. 国家自然科学基金面上项目自交联添加剂提高钙钛矿太阳能电池稳定性及其机理研究,2020.01-2023.1259万,主持

  7. 国家中组部青年拔尖人才,有机光电界面材料与器件,2015/01-2017/12200万,主持

  8. 中科院前沿科学重点研究计划,太阳能电池界面调控与器件性能研究,250万,主持

  9. 国家自然科学基金面上项目,含羧酸类极性基团的有机电荷传输材料及其钙钛矿太阳能电池性能研究,2018/01-2021/1258万,主持,

  10. 浙江省重点研发计划,柔性太阳能电池关键材料与器件研发及应用柔性太阳能电池关键材料与高效率器件的研究,2018/01-2020/1285/250,项目骨干

  11. 国家自然科学基金面上项目,电场对含有机小分子离子型材料的光伏器件性能影响研究,2015/01-2018/1279万,主持

  12. 浙江省杰出青年基金,离子型有机小分子和中性前体合成及其光电器件界面性能研究,2014/01-2017/1230万,主持

  13. 国家自然科学基金面上项目,有机两性离子界面修饰材料合成及其光电器件性能研究,2013/01-2016/1280万,主持

  14. 中科院百人计划,有机光电材料与器件,2013/01-2015/12260万,主持


学术成果

    SCI学术期刊发表论文150余篇,SCI他引6000余次,其中以第一/通讯作者在ScienceSci.Adv.Nat.Commun.、JouleJ.Am.Chem.Soc.Angew.Chem.Int.Ed.Adv.Mater.Adv.Energy.Mater.Adv.Funct.Mater.Nano.Lett ACS Energy.Lett.SCI杂志发表论文100余篇,第一和通讯作者论文多次被国际著名学者在ScienceNat.PhotonicsJouleChem.RevChem.Soc.RevAcc. Chem. Res.J.Am.Chem.Soc.Angew.Chem.Int.Ed.Adv.Mater.Energy Environ. Sci.等借鉴、大篇幅详细介绍或专门作为亮点工作点评(Science论文被Joule专文亮点点评并评价为反型电池方向的important milestone),授权PCT专利2项,中国专利15项。

部分论文:

  1. Wenxiao Zhang, Haobo Yuan, Xiaodong Li, Xuemin Guo, Chunyan Lu, Acan Liu, Hui Yang, Lin Xu, Xueliang Shi, Zhiwei Fang, Haibo Yang, Ya Cheng, Junfeng Fang*, Component Distribution Regulation in Sn-Pb PerovskiteSolar Cells through Selective Molecular Interaction  Adv. Mater., 2023, 2303674

  2. Sheng Fu, Jiabo Le, Xueming Guo, Nannan Sun, Wenxiao Zhang, Weijie Song,  and Junfeng Fang*; Polishing the Lead-Poor Surface for Efficient Inverted CsPbI3 Perovskite Solar Cells, Adv. Mater., 2022, 2205066

  3. Li, Xiaodong; Zhang, Wenxiao; Guo, Xuemin; Lu, Chunyan; Wei, Jiyao; Fang, Junfeng*Constructing heterojunctions by surface sulfidation for efficient inverted perovskite solar cells, Science, 2022, 375(6579): 434-437

  4. Fu, Sheng; Li, Xiaodong; Wan, Juanyong; Zhang, Wenxiao; Song, Weijie; Fang, Junfeng* ; In Situ Stabilized CsPbI3 for Air-Fabricated Inverted Inorganic Perovskite Photovoltaics with Wide Humidity Operating WindowAdvanced Functional Materials, 2022, 32, 2111116

  5. Zhang, Wenxiao; Li, Xiaodong; Fu, Sheng; Zhao, Xiaoyan; Feng, Xiuxiu; Fang, Junfeng*Lead-lean and MA-free perovskite solar cells with an efficiency over 20%Joule, 2021, 5(11): 2904-2914

  6. Fu, Sheng; Zhang, Wenxiao; Li, Xiaodong; Guan, Jianming; Song, Weijie; Fang, Junfeng* Humidity-Assisted Chlorination with Solid Protection Strategy for Efficient Air-Fabricated Inverted CsPbI3 Perovskite Solar CellsACS Energy Letters, 2021, 6(10): 3661-3668

  7. Li, X. D.; Fu, S.; Zhang, W. X.; Ke, S.Z.; Song, W. J.; Fang, J. F.*Chemical Anti-corrosion Strategy for Stable Inverted Perovskite Solar Cells. Sci. Adv. 2020.  6(51): eabd158

  8. Fu, S.; Wan, L.; Zhang, W. X.; Li, X. D.;Song, W. J.; Fang, J. F.*Tailoring In-situ Healing and Stabilizing Post-treatment Agent for High-performance Inverted CsPbI3 Perovskite Solar Cells with Efficiency of 16.67%. ACS Energy Letters 2020, 5, 3314

  9. Fu, S.; Zhang, W. X.; Li, X. D.; Wan, L.; Wu, Y. L.; Chen. L. J; Liu, X. H.; Fang, J.F.*Dual-Protection Strategy for High-Efficiency and Stable CsPbI2Br Inorganic Perovskite Solar Cells. ACS Energy Letters 2020, 5, 676-684

  10. Fu, S.; Li, X. D.;Wan, L.;Wu, Y. L.;Zhang, W. X.;Wang, Y. M.;Bao, Q. Y.; Fang, J.F.*Efficient Passivation with Lead Pyridine-2-Carboxylic for High-Performance and Stable Perovskite Solar Cells. Adv Energy Mater 2019, 9 (35).

  11. Yin, X. J.;Liu, X. H.;Peng, Y. H.;Zeng, W. X.;Zhong, C.;Xie, G. H.;Wang, L.*;Fang, J. F.**; Yang, C. L.*, Multichannel Strategies to Produce Stabilized Azaphenalene Diradicals: A Predictable Model to Generate Self-Doped Cathode Interfacial Layers for Organic Photovoltaics. Adv Funct Mater 2019, 29 (4).

  12. Li, X. D.; Zhang, W. X.; Wang, Y. C.; Zhang, W. J.; Wang, H. Q.; Fang, J. F.*In-Situ Cross-linking Strategy for Efficient and Operationally Stable Methylammoniun Lead Iodide Solar Cells. Nat Commun 2018, 9, 3806.

  13. Li, X. D.; Fu, S.;Liu, S. Y.;Wu, Y. L.;Zhang, W. X.;Song, W. J.; Fang, J. F.*Suppressing the ions-induced degradation for operationally stable perovskite solar cells. Nano Energy 2019, 64.

  14. Li, X. D.; Zhang, W. X.;Zhang, W. J.;Wang, H. Q.; Fang, J. F.*Spontaneous grain polymerization for efficient and stable perovskite solar cells. Nano Energy 2019, 58, 825-833.

  15. Li, X. D.; Zhang, W.J.; Usman, K.; Fang, J. F.*Small Molecule Interlayers in Organic Solar Cells. Adv Energy Mater 2018, 8, 1702730.

  16. Li, D.; Xiao, Z.; Wang, S.Z.; Geng, X.J.; Yang, S. F.*;Fang, J. F.*; Yang, H.* and Ding, L. M.*. A Thieno[3,2-c]Isoquinolin-5(4H)-One Building Block for Effcient Thick-Film Solar Cells. Adv. Energy Mater. 2018, 1800397

  17. Zhang, W.;Wang, Y. C.; Chang,Li, X. D.; Song, C.J.; Wan, L.; Usman. L.; Fang, J. F.*Recent Advance in Solution-Processed Organic Interlayers for High Performance Planar Perovskite Solar CellsAdvanced Science 2018, 1800159

  18. Wang, Y. C.; Chang,J.W.; Zhu,L.P.;Li, X. D.;Song, C.J.; Fang, J.Electron Transport Layer Assisted Crystallization of Perovskite Films for High Efficiency Planar Heterojunction Solar Cells. Adv Funct Mater 2017, 28, 1706317.

  19. Wang, Y; Li, X.; Zhu, L.; Liu, X.; Zhang, W.; Fang, J. F.*.: Efficient and Hysteresis-Free Perovskite Solar Cells Based on a Solution Processable Polar Fullerene Electron Transport Layer. Advanced Energy Materials 2017, 7. 1701144.

  20. Liu, X; Wang, H-Q*;Li, Y; Gui, Z; Ming, S; Usman, K; Zhang, W;Fang, J. F.*Regular Organic Solar Cells with Efficiency over 10% and Promoted Stability by Ligand- and Thermal Annealing-Free Al-Doped ZnO Cathode InterlayerAdvanced Science 2017, 1700053

  21. X. Liu, X. Li, Y. Li, C. Song, L. Zhu, W. Zhang, H. Q*. Wang, Fang, J. F.*High-Performance Polymer Solar Cells with PCE of 10.42% via Al-Doped ZnO Cathode InterlayerAdv Mater 2016, 28, 7405-7412.

  22. C. Kuang, G. Tang, T. Jiu*, H. Yang, H. Liu, B. Li, W. Luo, X. Li, W. Zhang, F. Lu, Fang, J. F.*, Y. Li*, Highly Efficient Electron Transport Obtained by Doping PCBM with Graphdiyne in Planar-Heterojunction Perovskite Solar CellsNano Letters 2015, 15, 2756-2762.

  23. W. Zhang, Y. Wu, Q. Bao, F. Gao*, Fang, J. F.*Morphological Control for Highly Efficient Inverted Polymer Solar Cells Via the Backbone Design of Cathode Interlayer MaterialsAdvanced Energy Materials 2014, 4, 1400359.

  24. C. Min, C. Shi, W. Zhang, T. Jiu, J. Chen*, D. Ma, Fang, J. F.*A Small-Molecule Zwitterionic Electrolyte without a π-Delocalized Unit as a Charge-Injection Layer for High-Performance PLEDsAngewandte Chemie International Edition 2013, 52, 3417–3420.

  25. Fang, J. F., B. H. Wallikewitz, F. Gao, G. Tu, C. Müller, G. Pace, R. H. Friend*, W. T. S. Huck*, Conjugated Zwitterionic Polyelectrolyte as the Charge Injection Layer for High-Performance Polymer Light-Emitting DiodesJournal of the American Chemical Society 2011, 133, 683-685.

  26. Fang, J. F., P. Matyba, L. Edman*, The Design and Realization of Flexible, Long-Lived Light-Emitting Electrochemical CellsAdvanced Functional Materials 2009, 19, 2671-2676.

  27. Fang, J. F., P. Matyba, N. D. Robinson, L. Edman*, Identifying and Alleviating Electrochemical Side-Reactions in Light-Emitting Electrochemical CellsJournal of the American Chemical Society 2008, 130, 4562-4568.

  28. Fu, S.; Li, X. D.; Wan, L.; Zhang, W. X.; Song, W. J.; Fang, J. F.*Effective Surface Treatment for High-Performance Inverted CsPbI2Br Perovskite Solar Cells with Efficiency of 15.92%.Nano-Micro Lett 2020, 12 (1).

  29. Wan, L.; Zhang, W. X.; Fu, S.; Chen, L. J.; Wang, Y. M.; Xue, Z. Y.; Tao, Y. T.; Zhang, W. J.; Song, W. J.; Fang, J. F.*, Achieving over 21% efficiency in inverted perovskite solar cells by fluorinating a dopant-free hole transporting material.J Mater Chem A 2020, 8 (14), 6517-6523.

  30. Li, H. J.; Wang, W. Y.; Yang, Y.; Wang, Y.; Li, P. F.; Huang, J. H.; Li, J.; Lu, Y. H.; Li, Z. J.; Wang, Z. Z.; Fan, B.; Fang, J. F.; Song, W. J., Kirigami-Based Highly Stretchable Thin Film Solar Cells That Are Mechanically Stable for More than 1000 Cycles. Acs Nano 2020, 14 (2), 1560-1568.

  31. Zhang, W. X.; Wan, L.; Fu, S.; Li, X. D.; Fang, J. F.*,Reducing energy loss and stabilising the perovskite/poly (3-hexylthiophene) interface through a polyelectrolyte interlayerJ Mater Chem A 2020, 8 (14), 6546-6554.

  32. Zhang, W. X.; Wan, L.; Li, X. D.; Wu, Y. L.; Fu, S.; Fang, J. F.*, A dopant-free polyelectrolyte hole-transport layer for high efficiency and stable planar perovskite solar cells.J Mater Chem A 2019, 7 (32), 18898-18905.

  33. Wu, Y. L.; Wan, L.; Fu, S.; Zhang, W. X.; Li, X. D.; Fang, J. F.*Liquid metal acetate assisted preparation of high-efficiency and stable inverted perovskite solar cells.J Mater Chem A 2019, 7 (23), 14136-14144.

  34. Chen, L. J.; Wan, L.;Li, X. D.;Zhang, W. X.;Fu, S.;Wang, Y. M.;Li, S.;Wang, H. Q.;Song, W. J.; Fang, J. F.*Inverted All-Inorganic CsPbI2Br Perovskite Solar Cells with Promoted Efficiency and Stability by Nickel IncorporationChem Mater 2019, 31 (21), 9032-9039.

  35. Liu, X. H.; Li, X. D.;Zou, Y.;Liu, H.;Wang, L.;Fang, J. F.**; Yang, C. L.*, Energy level-modulated non-fullerene small molecule acceptors for improved V-OC and efficiency of inverted perovskite solar cells. J Mater Chem A 2019, 7 (7), 3336-3343.

  36. Song, C. J.;Li, X. D.;Wang, Y. M.;Fu, S.;Wan, L.;Liu, S. Y.;Zhang, W. J.;Song, W. J.; Fang, J. F.*Sulfonyl-based non-fullerene electron acceptor-assisted grain boundary passivation for efficient and stable perovskite solar cells. J Mater Chem A 2019, 7 (34), 19881-19888.

  37. Wan, L.; Zhang, W. X.;Wu, Y. L.;Li, X. D.;Song, C. J.;He, Y.;Zhang, W. J.; Fang, J. F.*Efficient light harvesting with a nanostructured organic electron-transporting layer in perovskite solar cells. Nanoscale 2019, 11 (19), 9281-9286.

  38. Wang, Y. M.;Wu, Y. L.;Fu, S.;Song, C. J.;Wan, L.;Zhang, W. X.;Li, X. D.;Yang, W. G.;Song, W. J.; Fang, J. F.*, Barium acetate as an additive for high performance perovskite solar cells. J Mater Chem C 2019, 7 (37), 11411-11418.

  39. Wu, Y. L.;Li, X. D.;Fu, S.;Wan, L.; Fang, J. F.*Efficient methylammonium lead trihalide perovskite solar cells with chloroformamidinium chloride (Cl-FACl) as an additiveJ Mater Chem A 2019, 7 (14), 8078-8084.

  40. Li, X. D.; Liu, X. H.; Zhang, W. J.; Wang, H. Q.; Fang, J. F.*Fullerene-Free Organic Solar Cells with Efficiency Over 12% Based on EDTA–ZnO Hybrid Cathode Interlayer. Chemistry of Materials 2017, 29 , 4176–4180.

  41. Li, X. D.; Wang, Y. C.; Zhu, L. P.; Zhang, W. J.; Wang, H. Q.; Fang, J. F.*Improving Efficiency and Reproducibility of Perovskite Solar Cells through Aggregation Control in Polyelectrolytes Hole Transport Layer. ACS Appl Mater Inter 2017, 9, 31357-31361.

  42. Zhang, W. J.; Li, Y. R.; Zhu, L. P.; Liu, X. H.; Song, C. J.; Li, X. D.; Sun, X. H.; Fang, J. F.* : A PTB7-based narrow band-gap conjugated polyelectrolyte as an efficient cathode interlayer in PTB7-based polymer solar cells. Chemical Communications 2017, 53, 2005-2008.

  43. Li, Y. R.; Liu, X. H.; Li, X. D.; Zhang, W. J.; Xing, F. F.; Fang, J. F.*..Electrolytes as Cathode Interlayers in Inverted Organic Solar Cells: Influence of the Cations on Bias-Dependent Performance. ACS Applied Materials & Interfaces 2017, 9, 8426-8431.

  44. Zhu, L. P.; Song, C. J.; Li, X. D.; Wang, Y. C.; Zhang, W. X.; Sun, X. H.; Zhang, W. J. *; Fang, J. F.*A benzobis(thiadiazole)-based small molecule as a solution-processing electron extraction material in planar perovskite solar cells. J Mater Chem C 2017, 5, 10777-10784.

  45. W. Zhang, C. Song, X. Liu, Fang, J. F.*Realizing Highly Efficient Inverted Photovoltaic Cells by Combination of Nonconjugated Small-Molecule Zwitterions with Polyethylene GlycolACS Applied Materials & Interfaces 2016, 8, 18593-18599.

  46. Y. Wu, X. Liu, X. Li, W. Zhang, H.-Q. Wang*, Fang, J. F.*High-Performance Polymer Solar Cells with Zinc Sulfide-Phenanthroline Derivatives as the Hybrid Cathode InterlayersACS Applied Materials & Interfaces 2016, 8, 2688-2693.

  47. X. Liu, Y. Wu, X. Li, W. Zhang, L. Zhao, H.-Q. Wang*, Fang, J. F.*CdS-phenanthroline derivative hybrid cathode interlayers for high performance inverted organic solar cellsJournal of Materials Chemistry A 2016, 4, 297-302.

  48. J. Li, T. Jiu*, B. Li, C. Kuang, Q. Chen, S. Ma, J. Shu, Fang, J. F.*Inverted polymer solar cells with enhanced fill factor by inserting the potassium stearate interfacial modification layerApplied Physics Letters 2016, 108, 181602.

  49. Y. Li, X. Li, X. Liu, L. Zhu, W. Zhang, Fang, J. F.*Realizing High Performance Inverted Organic Solar Cells Via a Non-Conjugated Electrolyte Cathode Interlayer.  The Journal of Physical Chemistry C.  2016. DOI: 10.1021 /acs.jpcc.6b10558

  50. Q. Zhang, D. Zhang, X. Li, X. Liu, W. Zhang, L. Han, Fang, J. F.*g, Neutral amine based alcohol-soluble interface materials for inverted polymer solar cells: realizing high performance and overcoming solvent erosionChemical Communications 2015, 51, 10182-10185.

  51. W. Luo, T. Jiu*, C. Kuang, B. Li, F. Lu, Fang, J. F.*Dithiol treatments enhancing the efficiency of hybrid solar cells based on PTB7 and CdSe nanorodsNano Res. 2015, 8, 3045-3053.

  52. X. Li, W. Zhang, X. Wang, Y. Wu, F. Gao, Fang, J. F.*Critical role of the external bias in improving the performance of polymer solar cells with a small molecule electrolyte interlayerJournal of Materials Chemistry A 2015, 3, 504-508.

  53. X. Li, X. Liu, X. Wang, L. Zhao, T. Jiu, Fang, J. F.*Polyelectrolyte based hole-transporting materials for high performance solution processed planar perovskite solar cellsJournal of Materials Chemistry A 2015, 3, 15024-15029.

  54. X. Liu, C. Liu, R. Sun, K. Liu, Y. Zhang, H.-Q. Wang, Fang, J. F.*, C. Yang*, Improved Device Performance of Polymer Solar Cells by Using a Thin Light-harvesting-Complex Modified ZnO Film as the Cathode InterlayerACS Applied Materials & Interfaces 2015, 7, 18904-18908.

  55. M. Qian, R. Zhang, J. Hao, W. Zhang, Q. Zhang, J. Wang, Y. Tao, S. Chen, Fang, J. F., W. Huang, Dramatic Enhancement of Power Conversion Efficiency in Polymer Solar Cells by Conjugating Very Low Ratio of Triplet Iridium Complexes to PTB7Advanced Materials 2015, 27, 3546-3552.

  56. M. Hao, X. Li, K. Shi, D. Xie, X. Zeng, Fang, J. F.*, G. Yu, C. Yang*, Highly efficient photovoltaics and field-effect transistors based on copolymers of mono-fluorinated benzothiadiazole and quaterthiophene: synthesis and effect of the molecular weight on device performancePolymer Chemistry 2015, 6, 6050-6057.

  57. G. Wang, T. Jiu*, C. Sun, J. Li, P. Li, F. Lu, Fang, J. F.*Highly Efficient Organic Photovoltaics via Incorporation of Solution-Processed Cesium Stearate as the Cathode Interfacial LayerACS Applied Materials & Interfaces 2014, 6, 833-838.

  58. C. Sun, Y. Wu, W. Zhang, N. Jiang, T. Jiu*, Fang, J. F.*Improving Efficiency by Hybrid TiO2 Nanorods with 1,10-Phenanthroline as A Cathode Buffer Layer for Inverted Organic Solar CellsACS Applied Materials & Interfaces 2014, 6, 739–744.

  59. X. Li, W. Zhang, X. Wang, F. Gao*,Fang, J. F.*Disodium Edetate As a Promising Interfacial Material for Inverted Organic Solar Cells and the Device Performance OptimizationACS Applied Materials & Interfaces 2014, 6, 20569-20573.

  60. P. Li, C. Sun, T. Jiu*, G. Wang, J. Li, X. Li, Fang, J. F.*High-Performance Inverted Solar Cells Based on Blend Films of ZnO Naoparticles and TiO2 Nanorods as a Cathode Buffer LayerACS Applied Materials & Interfaces 2014, 6, 4074-4080.

  61. P. Li, T. Jiu*, G. Tang, G. Wang, J. Li, X. Li, Fang, J. F.*Solvents Induced ZnO Nanoparticles Aggregation Associated with Their Interfacial Effect on Organic Solar CellsACS Applied Materials & Interfaces 2014,6, 18172-18179.

  62. G. Wang, T. Jiu*, P. Li, J. Li, C. Sun, F. Lu, Fang, J. F.*Preparation and characterization of MoO3 hole-injection layer for organic solar cell fabrication and optimizationSolar Energy Materials and Solar Cells 2014, 120, 603-60

  63. P. Li, X. Li, C. Sun, G. Wang, J. Li, T. Jiu*, Fang, J. F.*Performance enhancement of inverted polymer solar cells with fullerene ester derivant-modified ZnO film as cathode buffer layerSolar Energy Materials and Solar Cells 2014, 126, 36-41.

  64. G. Wang, T. Jiu*, G. Tang, J. Li, P. Li, X. Song, F. Lu, Fang, J. F.*Interface Modification of ZnO-Based Inverted PTB7:PC71BM Organic Solar Cells by Cesium Stearate and Simultaneous Enhancement of Device ParametersACS Sustainable Chemistry & Engineering 2014, 2, 1331-1337.

  65. X. Xu, Y. Wu, Fang, J. F.*, Z. Li, Z. Wang, Y. Li, Q. Peng*, Side-Chain Engineering of Benzodithiophene-Fluorinated Quinoxaline Low-Band-Gap Co-polymers for High-Performance Polymer Solar CellsChemistry – A European Journal 2014, 20, 13259–13271.

  66. Y. Wu, W. Zhang, X. Li, C. Min, T. Jiu, Y. Zhu, N. Dai*, Fang, J. F.*Solution-Processed Hybrid Cathode Interlayer for Inverted Organic Solar CellsACS Applied Materials & Interfaces 2013, 5, 10428-10432.

  67. X. Li, W. Zhang, Y. Wu, C. Min, Fang, J. F.*Solution-Processed MoSx as an Efficient Anode Buffer Layer in Organic Solar CellsACS Applied Materials & Interfaces 2013, 5, 8823-8827.

  68. X. Li, W. Zhang, Y. Wu, C. Min, Fang, J. F.*High performance polymer solar cells with a polar fullerene derivative as the cathode buffer layerJournal of Materials Chemistry A 2013, 1, 12413-12416.

  69. D. Ye, X. Li, L. Yan, W. Zhang, Z. Hu, Y. Liang, Fang, J. F.*, W.-Y. Wong*, X. Wang*, Dithienosilole-bridged small molecules with different alkyl group substituents for organic solar cells exhibiting high open-circuit voltageJournal of Materials Chemistry A 2013, 1, 7622-7629.

  70. A. Kumar, G. Pace, A. A. Bakulin, Fang, J. F., P. K. H. Ho, W. T. S. Huck, R. H. Friend, N. C. Greenham, Donor-acceptor interface modification by zwitterionic conjugated polyelectrolytes in polymer photovoltaicsEnergy & Environmental Science 2013, 6, 1589-1596.

  71. G. Grancini, R. S. S. Kumar, M. Maiuri, Fang, J. F., W. T. S. Huck, M. J. P. Alcocer, G. Lanzani, G. Cerullo, A. Petrozza, H. J. Snaith, Panchromatic Dye-Doped Polymer Solar Cells: From Femtosecond Energy Relays to Enhanced Photo-ResponseJournal of Physical Chemistry Letters 2013, 4, 442-447.

  72. S. Tang, A. Sandström, Fang, J. F., L. Edman, A Solution-Processed Trilayer Electrochemical Device: Localizing the Light Emission for Optimized PerformanceJournal of the American Chemical Society 2012, 134, 14050-14055.

  73. J. E. Slota, E. Elmalem, G. Tu, B. Watts, Fang, J. F., P. M. Oberhumer, R. H. Friend, W. T. S. Huck, Oligomeric Compatibilizers for Control of phase Separation in Conjugated Polymer Blend FilmsMacromolecules 2012,45, 1468-1475.

  74. K. Driscoll, Fang, J. F., N. Humphry-Baker, T. Torres, W. T. S. Huck, H. J. Snaith, R. H. Friend, Enhanced Photoresponse in Solid-State Excitonic Solar Cells via Resonant Energy Transfer and Cascaded Charge Transfer from a Secondary AbsorberNano Letters 2010, 10, 4981-4988.

  75. Fang, J. F.Y. Yang, L. Edman*, Understanding the operation of light-emitting electrochemical cellsApplied Physics Letters 2008, 93, 063503.

  76. N. D. Robinson, Fang, J. F.P. Matyba, L. Edman*, Electrochemical doping during light emission in polymer light-emitting electrochemical cellsPhysical Review B 2008, 78, 245202.

  77. Fang, J. F.H. You, J. Chen, J. Lin, D. Ma*, Memory devices based on lanthanide (Sm3+, Eu3+, Gd3+) complexesInorganic Chemistry 2006, 45, 3701-3704.

  78. Fang, J. F.D. Ma*, Efficient red organic light-emitting devices based on a europium complexApplied Physics Letters 2003, 83, 4041-4043.

 

 

 

 



荣誉及奖励

获得荣誉: 

  • 2023年国家杰出青年科学基金获得者

  • 2019年华东师范大学紫江优秀青年学者

  • 2015年中科院特聘研究员计划

  • 2015年宁波市领军与拔尖人才第一层次

  • 2015年浙江省九三学社优秀社员

  • 2015年中科院上海分院杰出青年科技创新人才提名奖

  • 2014年浙江省杰出青年基金获得者

  • 2014年国家高层次特殊支持计划计划青年拔尖人才

  • 2013年获得浙江省特聘专家

  • 2013年获得宁波市“3315计划”

  • 2012年中科院“百人计划”A类择优支持

  • 2004年中科院院长奖优秀奖


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