方俊鋒,男,博士,中國科學院寧波材料技術與工程研究所研究員,博士生導師。
基本介紹
- 中文名:方俊鋒
- 國籍:中國
- 民族:漢
- 職業:中國科學院寧波材料技術與工程研究所 研究員
- 畢業院校:中國科學院長春套用化學研究所
- 主要成就:中國科學院“百人計畫”擇優支持獲得者
- 性別:男
人物經歷,研究方向,主要貢獻,
人物經歷
中國科學院寧波材料技術與工程研究所研究員,博士生導師。
中科院“百人計畫”擇優支持獲得者,浙江省創新長期“千人計畫”入選者,寧波市創新長期“3315計畫”,寧波市領軍與拔尖人才。
2001年畢業於武漢大學化學與分子科學學院,獲理學學士學位。
2006在中國科學院長春套用化學研究所高分子物理與化學國家重點實驗室獲博士學位,
2006-2008年,瑞典于默奧大學物理系博士後,從事聚合物電化學池器件機理及壽命研究,
2008-2010年,英國劍橋大學化學系副研究員,從事有機光電材料合成與器件製備方面的研究。
2011年,被中國科學院寧波材料技術與工程研究所以中科院“百人計畫”引進回國,負責組建有機光伏與器件研究團隊。
擔任美國自然科學基金,國家、省、市等基金函評專家,中組部、教育部等人才計畫評審專家。
研究方向
有機光電界面材料與器件。
鈣鈦礦類有機無機雜化光伏材料與器件等方面的研究。
主要貢獻
學術成就
國際著名期刊上發表論文50餘篇。曾獲2004年中國科學院院長獎學金優秀獎。授權國際專利和中國專利各2項。正在主持中國科學院“百人計畫”擇優支持項目,2項國家自然科學基金面上項目,浙江省傑出青年基金,國家重點實驗室開放基金,寧波市自然科學基金以及中科院寧波材料所團隊人才啟動項目等。
代表性論文
1. C. Min, C.S. Shi, W.J. Zhang, T.G. Jiu, J.S. Chen*, D.G. Ma, J.F. Fang*, A Small-Molecule Zwitterionic Electrolyte without a pi-Delocalized Unit as a Charge-Injection Layer for High-Performance PLEDs, Angew. Chem. Int. Ed. 52 (2013) 3417-3420.
2. J.F. Fang, B.H. Wallikewitz, F. Gao, G.L. Tu, C. Muller, G. Pace, R.H. Friend*, W.T.S. Huck*, Conjugated Zwitterionic Polyelectrolyte as the Charge Injection Layer for High-Performance Polymer Light-Emitting Diodes, J. Am. Chem. Soc. 133 (2011) 683-685.
3. J.F. Fang, P. Matyba, N.D. Robinson, L. Edman*, Identifying and alleviating electrochemical side-reactions in light-emitting electrochemical cells, J. Am. Chem. Soc. 130 (2008) 4562-4568.
4. J.F. Fang, P. Matyba, L. Edman*, The Design and Realization of Flexible, Long-Lived Light-Emitting Electrochemical Cells, Adv. Funct. Mater. 19 (2009) 2671-2676.(Inside Cover) .
5. X.D. Li, W.J. Zhang, Y.L. Wu, C. Min, J.F. Fang*, Solution-Processed MoSx as an Efficient Anode Buffer Layer in Organic Solar Cells, ACS Appl. Mater & Interfaces 5 (2013) 8823-8827.
6. X.D. Li, W.J. Zhang, Y.L. Wu, C. Min, andJ.F. Fang*, High performance polymer solar cells with a polar fullerene derivative as the cathode buffer layer. J Mater Chem A, 2013. 1(40): p. 12413-12416.
7. G.J. Wang, T.G. Jiu*, C.M. Sun, J. Li, P.D. Li, F.S. Lu, and J.F. Fang*, Highly Efficient Organic Photovoltaics via Incorporation of Solution-Processed Cesium Stearate as the Cathode Interfacial Layer. Acs Appl Mater Interfaces, 2014. 6(2): p. 833-838.
8. P.D. Li, T.G. Jiu*, G.J. Wang, J. Li, J.F. Fang* * and X.F. Li*, Performance Enhancement of Inverted Polymer Solar Cells with Fullerene Ester Derivant-Modified ZnO Film as Cathode Buffer Layer, Sol Energ Mat Sol C, 2014, accepted.
9. C.M. Sun, Y.L. Wu, W.J. Zhang, N.Q. Jiang, T.G. Jiu*, and J.F. Fang*, Improving Efficiency by Hybrid TiO2 Nanorods with 1,10-Phenanthroline as A Cathode Buffer Layer for Inverted Organic Solar Cells. Acs Appl Mater Interaces, 2014. 6(2): p. 739-744.
10. G.J. Wang, T.G. Jiu*, P.D. Li, J. Li, C.M. Sun, F.S. Lu*, and J.F. Fang*, Preparation and characterization of MoO3 hole-injection layer for organic solar cell fabrication and optimization. Sol Energ Mat Sol C, 2014. 120: p. 603-609.
11. G.J. Wang, T.G. Jiu*, P.D. Li, J. Li, C.M. Sun, F.S. Lu*, and J.F. Fang*, In situ growth of columnar MoO3 buffer layer for organic photovoltaic applications. Org Electron, 2014. 15(1): p. 29-34.
12. J. Li, T.G. Jiu *, G.H.Tao, G.J. Wang, C.M. Sun, P.D. Li, J.F. Fang* * and L. He*, Manipulating Surface Ligands of CuS Nanocrystals: Synthesis, Characterization, and Application to Organic Solar Cells, J Colloid and Interface Science, 2014, 419, 142-147.
13. Z. Hu, X.D. Li, W.J. Zhang, A.H. Liang, D.D. Ye, Z.T. Liu*, J. Liu, Y.J. Liu, and J.F. Fang*, Synthesis and photovoltaic properties of solution-processable star-shaped small molecules with triphenylamine as the core and alkyl cyanoacetate or 3-ethylrhodanine as the end-group. Rsc Adv, 2014. 4(11): p. 5591-5597.
14. D.D. Ye, X.D. Li, L. Yan, W.J. Zhang, Z. Hu, Y. Liang, J.F. Fang*, W.Y. Wong*, and X.Z. Wang*, Dithienosilole-bridged small molecules with different alkyl group substituents for organic solar cells exhibiting high open-circuit voltage. J Mater Chem A, 2013. 1(26): p. 7622-7629.
15. Y.L. Wu, W.J. Zhang, X.D. Li, C. Min, T.G. Jiu*, Y.J. Zhu, N. Dai*, and J.F. Fang*, Solution-Processed Hybrid Cathode Interlayer for Inverted Organic Solar Cells. Acs Appl Mater Interfaces, 2013. 5(21): p. 10428-10432.
16. A. Kumar, G. Pace, A.A. Bakulin, J.F. Fang, P.K.H. Ho, W.T.S. Huck, R.H. Friend, and N.C. Greenham*, Donor-acceptor interface modification by zwitterionic conjugated polyelectrolytes in polymer photovoltaics. Energ Environ Sci, 2013. 6(5): p. 1589-1596.
17. G. Grancini, R.S.S. Kumar, M. Maiuri, J.F. Fang, W.T.S. Huck, M.J.P. Alcocer, G. Lanzani, G. Cerullo, A. Petrozza, and H.J. Snaith*, Panchromatic "Dye-Doped" Polymer Solar Cells: From Femtosecond Energy Relays to Enhanced Photo-Response. J Phys Chem Lett, 2013. 4(3): p. 442-447.
18. S. Tang, A. Sandstrom, J.F. Fang, and L. Edman*, A Solution-Processed Trilayer Electrochemical Device: Localizing the Light Emission for Optimized Performance. J Am Chem Soc, 2012. 134(34): p. 14050-14055.
19. J.E. Slota, E. Elmalem, G.L. Tu, B. Watts,J.F. Fang, P.M. Oberhumer, R.H. Friend*, and W.T.S. Huck*, Oligomeric Compatibilizers for Control of phase Separation in Conjugated Polymer Blend Films. Macromolecules, 2012. 45(3): p. 1468-1475.
20. Z.Y. Chen, J.F. Fang(equal contribution), F. Gao, T.J.K. Brenner, K.K. Banger, X.Z. Wang, W.T.S. Huck*, and H. Sirringhaus*, Enhanced charge transport by incorporating additional thiophene units in the poly(fluorene-thienyl-benzothiadiazole) polymer. Org Electron, 2011. 12(3): p. 461-471.
21. S.Y. Yu*, L. Ju, F.H. Li, Y.M. Liu, J.F. Fang*, A highly selective solid-contact electrode for Ag+ based on a monoazathiacrown ether ionophore, Chinese Chem Lett, 23 (2012) 488-491.
22. K. Driscoll*, J.F. Fang, 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 Absorber, Nano Lett, 10 (2010) 4981-4988.
23. N.D. Robinson*, J.F. Fang, P. Matyba, L. Edman*, Electrochemical doping during light emission in polymer light-emitting electrochemical cells, Phys Rev B, 78 (2008).
24. J.F. Fang, Y.L.Yang, L. Edman*,“Understanding the Operation of Light-Emitting Electrochemical Cells”, Appl. Phys. Lett. 2008, 93, 063503.
25. J.F. Fang, H. You, J.S. Chen, J. Lin, and D.G. Ma, Memory devices based on lanthanide (Sm3+, Eu3+, Gd3+) complexes. Inorg Chem, 2006. 45(9): p. 3701-3704.
26. J.F. Fang and D.G. Ma, Efficient red organic light-emitting devices based on a europium complex. Appl Phys Lett, 2003. 83(19): p. 4041-4043.
2. J.F. Fang, B.H. Wallikewitz, F. Gao, G.L. Tu, C. Muller, G. Pace, R.H. Friend*, W.T.S. Huck*, Conjugated Zwitterionic Polyelectrolyte as the Charge Injection Layer for High-Performance Polymer Light-Emitting Diodes, J. Am. Chem. Soc. 133 (2011) 683-685.
3. J.F. Fang, P. Matyba, N.D. Robinson, L. Edman*, Identifying and alleviating electrochemical side-reactions in light-emitting electrochemical cells, J. Am. Chem. Soc. 130 (2008) 4562-4568.
4. J.F. Fang, P. Matyba, L. Edman*, The Design and Realization of Flexible, Long-Lived Light-Emitting Electrochemical Cells, Adv. Funct. Mater. 19 (2009) 2671-2676.(Inside Cover) .
5. X.D. Li, W.J. Zhang, Y.L. Wu, C. Min, J.F. Fang*, Solution-Processed MoSx as an Efficient Anode Buffer Layer in Organic Solar Cells, ACS Appl. Mater & Interfaces 5 (2013) 8823-8827.
6. X.D. Li, W.J. Zhang, Y.L. Wu, C. Min, andJ.F. Fang*, High performance polymer solar cells with a polar fullerene derivative as the cathode buffer layer. J Mater Chem A, 2013. 1(40): p. 12413-12416.
7. G.J. Wang, T.G. Jiu*, C.M. Sun, J. Li, P.D. Li, F.S. Lu, and J.F. Fang*, Highly Efficient Organic Photovoltaics via Incorporation of Solution-Processed Cesium Stearate as the Cathode Interfacial Layer. Acs Appl Mater Interfaces, 2014. 6(2): p. 833-838.
8. P.D. Li, T.G. Jiu*, G.J. Wang, J. Li, J.F. Fang* * and X.F. Li*, Performance Enhancement of Inverted Polymer Solar Cells with Fullerene Ester Derivant-Modified ZnO Film as Cathode Buffer Layer, Sol Energ Mat Sol C, 2014, accepted.
9. C.M. Sun, Y.L. Wu, W.J. Zhang, N.Q. Jiang, T.G. Jiu*, and J.F. Fang*, Improving Efficiency by Hybrid TiO2 Nanorods with 1,10-Phenanthroline as A Cathode Buffer Layer for Inverted Organic Solar Cells. Acs Appl Mater Interaces, 2014. 6(2): p. 739-744.
10. G.J. Wang, T.G. Jiu*, P.D. Li, J. Li, C.M. Sun, F.S. Lu*, and J.F. Fang*, Preparation and characterization of MoO3 hole-injection layer for organic solar cell fabrication and optimization. Sol Energ Mat Sol C, 2014. 120: p. 603-609.
11. G.J. Wang, T.G. Jiu*, P.D. Li, J. Li, C.M. Sun, F.S. Lu*, and J.F. Fang*, In situ growth of columnar MoO3 buffer layer for organic photovoltaic applications. Org Electron, 2014. 15(1): p. 29-34.
12. J. Li, T.G. Jiu *, G.H.Tao, G.J. Wang, C.M. Sun, P.D. Li, J.F. Fang* * and L. He*, Manipulating Surface Ligands of CuS Nanocrystals: Synthesis, Characterization, and Application to Organic Solar Cells, J Colloid and Interface Science, 2014, 419, 142-147.
13. Z. Hu, X.D. Li, W.J. Zhang, A.H. Liang, D.D. Ye, Z.T. Liu*, J. Liu, Y.J. Liu, and J.F. Fang*, Synthesis and photovoltaic properties of solution-processable star-shaped small molecules with triphenylamine as the core and alkyl cyanoacetate or 3-ethylrhodanine as the end-group. Rsc Adv, 2014. 4(11): p. 5591-5597.
14. D.D. Ye, X.D. Li, L. Yan, W.J. Zhang, Z. Hu, Y. Liang, J.F. Fang*, W.Y. Wong*, and X.Z. Wang*, Dithienosilole-bridged small molecules with different alkyl group substituents for organic solar cells exhibiting high open-circuit voltage. J Mater Chem A, 2013. 1(26): p. 7622-7629.
15. Y.L. Wu, W.J. Zhang, X.D. Li, C. Min, T.G. Jiu*, Y.J. Zhu, N. Dai*, and J.F. Fang*, Solution-Processed Hybrid Cathode Interlayer for Inverted Organic Solar Cells. Acs Appl Mater Interfaces, 2013. 5(21): p. 10428-10432.
16. A. Kumar, G. Pace, A.A. Bakulin, J.F. Fang, P.K.H. Ho, W.T.S. Huck, R.H. Friend, and N.C. Greenham*, Donor-acceptor interface modification by zwitterionic conjugated polyelectrolytes in polymer photovoltaics. Energ Environ Sci, 2013. 6(5): p. 1589-1596.
17. G. Grancini, R.S.S. Kumar, M. Maiuri, J.F. Fang, W.T.S. Huck, M.J.P. Alcocer, G. Lanzani, G. Cerullo, A. Petrozza, and H.J. Snaith*, Panchromatic "Dye-Doped" Polymer Solar Cells: From Femtosecond Energy Relays to Enhanced Photo-Response. J Phys Chem Lett, 2013. 4(3): p. 442-447.
18. S. Tang, A. Sandstrom, J.F. Fang, and L. Edman*, A Solution-Processed Trilayer Electrochemical Device: Localizing the Light Emission for Optimized Performance. J Am Chem Soc, 2012. 134(34): p. 14050-14055.
19. J.E. Slota, E. Elmalem, G.L. Tu, B. Watts,J.F. Fang, P.M. Oberhumer, R.H. Friend*, and W.T.S. Huck*, Oligomeric Compatibilizers for Control of phase Separation in Conjugated Polymer Blend Films. Macromolecules, 2012. 45(3): p. 1468-1475.
20. Z.Y. Chen, J.F. Fang(equal contribution), F. Gao, T.J.K. Brenner, K.K. Banger, X.Z. Wang, W.T.S. Huck*, and H. Sirringhaus*, Enhanced charge transport by incorporating additional thiophene units in the poly(fluorene-thienyl-benzothiadiazole) polymer. Org Electron, 2011. 12(3): p. 461-471.
21. S.Y. Yu*, L. Ju, F.H. Li, Y.M. Liu, J.F. Fang*, A highly selective solid-contact electrode for Ag+ based on a monoazathiacrown ether ionophore, Chinese Chem Lett, 23 (2012) 488-491.
22. K. Driscoll*, J.F. Fang, 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 Absorber, Nano Lett, 10 (2010) 4981-4988.
23. N.D. Robinson*, J.F. Fang, P. Matyba, L. Edman*, Electrochemical doping during light emission in polymer light-emitting electrochemical cells, Phys Rev B, 78 (2008).
24. J.F. Fang, Y.L.Yang, L. Edman*,“Understanding the Operation of Light-Emitting Electrochemical Cells”, Appl. Phys. Lett. 2008, 93, 063503.
25. J.F. Fang, H. You, J.S. Chen, J. Lin, and D.G. Ma, Memory devices based on lanthanide (Sm3+, Eu3+, Gd3+) complexes. Inorg Chem, 2006. 45(9): p. 3701-3704.
26. J.F. Fang and D.G. Ma, Efficient red organic light-emitting devices based on a europium complex. Appl Phys Lett, 2003. 83(19): p. 4041-4043.