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马在飞

马在飞研究员




    马在飞博士,博士生导师,先进低维材料中心特聘研究员。19863月生于河北。2008年完成吉林大学化学专业本科学习。2013年于瑞典林雪平大学应用物理系获博士学位。随后在洪堡基金会资助下在德国德累斯顿工业大学开展博士后研究工作。201712月份加入东华大学先进低维材料中心。主要研究方向为有机光电器件器件工艺方向。到目前为止累积在Adv. Mater., JACS, Energy Environ. Sci, Adv. Energy Mater. Adv. Funct. Mater. 等国际知名学术期刊上发表SCI论文近30篇。




研究方向:

1、有机半导体薄膜的制备工艺及其在有机光电器件中的应用

2、有机太阳能电池器件活性层形貌的研究

荣誉及获奖情况:

1、2012年度国家优秀自费留学生奖学金

近年来承担的主要科研项目:

1、洪堡基金会博士后基金项目

近年来发表的代表性论著、专利:

论文

1.Z. Tang, Z. Ma*, A. Melianas,Y. Wu,W. Cai,R. Kroon,W. Li,W. Ma,M. Andersson,and O. Inganäs,“Relating energy losses to donor-acceptor phase separation in solution-processed organic solar cells”, Submitted, 2018.

2.**,”Small Molecule Near-Infrared Boron Dipyrromethene Donors for Organic Tandem Solar Cells”, J. Am. Chem. Sci., 2017, 139, 13636. (IF: 13.0)

3.Z. Tang,Z. Ma, A. Sánchez-Díaz, S. Ullbrich, Y. Liu, B. Siegmund, A. Mischok, K. Leo, M. Campoy-Quiles, W. Li, and K. Vandewal “Polymer:Fullerene Bimolecular Crystals for Near-Infrared Spectroscopic Photodetectors”, Adv. Mater., 2017, 29, 1702184. (IF: 19.8)

4.Z. Ma, W. Sun, S. Himmelberger, K. Vandewal, Z. Tang, J. Bergqivst, A. Salleo, J. W. Andreasen, O. Inganäs, M. R. Andersson, C. Müller, F. Zhang and E. Wang, “The structure-property relationship of oligothiophene-isoindigo polymers for efficient bulk-heterojunction solar cells”, Energy & Environ. Sci., 2014, 7, 361. (IF: 29.5)

5.Z. Ma,D. Dang, Z. Tang, D. Gedefaw, J. Bergqvist, W. Zhu, W. Mammo, M. R. Andersson, O. Inganäs, F. Zhang, E. Wang, “A Facile Method to Enhance Photovoltaic Performance of Benzodithiophene-Isoindigo Polymers by Inserting Bithiophene Spacer”, Adv. Energy Mater., 2014, 4(6), DOI: 10.1002/aenm.201301455. (IF: 16.7)

6.K. Vandewal#, Z. Ma#(# Equal Contribution), J. Bergqvist, Z. Tang, E. Wang, P. Henriksson, K. Tvingstedt, M. R. Andersson, F. Zhang and O. Inganäs, “Quantification of Quantum Efficiency and Energy Losses in Low Bandgap Polymer:Fullerene Solar Cells with High Open-Circuit Voltage”, Adv. Funct. Mater., 2012, 22(16), 3480. (IF: 12.1)

7.Z. Ma, Z. Tang, E. Wang, M. R. Andersson, O. Inganäs and F. Zhang, “Influences of Surface Roughness of ZnO Electron Transport Layer on the Photovoltaic Performance of Organic Inverted Solar Cells”, J.  Phys. Chem. C, 2012, 116(46), 24462. (IF: 4.5)

8.Z. Ma, E. Wang, M. E. Jarvid, P. Henriksson, O. Inganäs, F. Zhang and M. R. Andersson, “Synthesis and characterization of benzodithiophene-isoindigo polymers for solar cells”, J. Mater. Chem., 2012, 22, 2306. (IF: 8.8)

9.Z. Ma, E. Wang, K. Vandewal, M. R. Andersson and F. Zhang, “Enhance performance of organic solar cells based on an isoindigo-based copolymer by balancing absorption and miscibility of electron acceptor”, Appl. Phys. Lett., 2011, 99, 143302. (IF: 3.1)

10.W. Sun#, Z. Ma# (#Equal Contribution), D. Dang, W. Zhu, M. R. Andersson, F. Zhang and E. Wang, “An alternating D-A1-D-A2 copolymer containing two electron-deficient moieties for efficient polymer solar cells”, J.  Mater. Chem. A, 2013, 1, 11141. (IF: 8.8)

11.J. BergqvistT. ÖsterbergA. MelianasL. AguirreZ. TangW. CaiZ. MaM. KemerinkD. GedefawM. R. AnderssonO. Inganäs, “Asymmetric photocurrent extraction in semitransparent laminated flexible organic solar cells”, npj Flexible Electronics, 2018, 2, 4.

12.E. Wang, Z. Ma, Z. Zhang, K. Vandewal, P. Henriksson, O. Inganäs, F. Zhang and M. R. Andersson, “An Easily Accessible Isoindigo-Based Polymer for High-Performance Polymer Solar Cells”, J. Am. Chem. Soc., 2011, 14244. (IF: 13.0)

13.E. Wang, Z. Ma, Z. Zhang, P. Henriksson, O. Inganäs, F. Zhang and M. R. Andersson, “An isoindigo-based low band gap polymer for efficient polymer solar cells with high photo-voltage”, Chem. Commun., 2011, 4908. (IF: 6.6)

14.D. Gedefaw, Z. Ma, P. Henriksson, F. Zhang, M. R. Andersson and W. Mammo, “Random Polyfluorene Co-Polymers Designed for a Better Optical Absorption Coverage of the Visible Region of the Electromagnetic Spectrum”, Bulletin of the Chem. Soc. Ethiopia, 2014, 28(1), 121.

15.T. Li, Z. Ma, Z. Qiao, C. Konor, K. Vandewal, O. Zeika, K. Leo, “Novel aza-BODIPY derivatives containing BF(CN) and B(CN)2 structures”, ChemPlusChem, 2017, 82, 190. (IF: 2.1)

16.D. Gedefaw, Z. Ma, E. Mulugeta, Y. Zhao, F. Zhang, M. R. Andersson and W. Mammo, “An alternating copolymer of fluorene donor and quinoxaline acceptor versus a terpolymer consisting of fluorene, quinoxaline and benzothiadiazole building units: synthesis and characterization”, Polymer Bulletin, 2016, 73(4), 1167-1183. (IF: 1.5)

17.Z. Tang, Z. George, Z. Ma, J. Bergqvist, K. Tvingstedt, K. Vandewal, E. Wang, M. Andersson, M. R. Andersson, F. Zhang and O. Inganäs, “Semi-Transparent Tandem Organic Solar Cells with 90% Internal Quantum Efficiency”, Adv. Energy Mater., 2012, 1467. (IF: 16.7)

18.D. Gedefaw, Y. Zhou, Z. Ma, Z. Genene , S. Hellström , F. Zhang, W. Mammo , O. Inganäs and M. R. Andersson, “Conjugated polymers with polar side chains in bulk-heterojunction solar cell devices”, Polymer Inter., 2014, 63(1), 22. (IF: 2.4)

19.E. Wang, J. Bergqvist, K. Vandewal, Z. Ma, L. Hou, A. Lundin, S. Himmelberger, A. Salleo, C. Müller, O. Inganäs, F. Zhang and M. R. Andersson, “Conformational Disorder Enhances Solubility and Photovoltaic Performance of a Thiophene–Quinoxaline Copolymer”, Adv. Energy Mater., 2013, 3(6), 806. (IF: 16.7)

20.Q. Hou, Y. Chen, H. Zhen, Z. Ma, W. Hong, G. Shi and F. Zhang, “A triphenylamine-based four-armed molecule for solution-processed organic solar cells with high photo-voltage”, J. Mater. Chem. A, 2013, 1, 4937. (IF: 16.7)

21.E. Wang, L. Hou, Z. Wang, Z. Ma, S. Hellstrom, W. Zhuang, F. Zhang, O. Inganäs and M. R. Andersson, “Side-Chain Architectures of 2,7- Carbazole and Quinoxaline-Based Polymers for Efficient Polymer Solar Cells”, Macromolecules, 2011, 2067. (IF: 5.5)

22.J. Bergqvist, C. Lindqvist, O. Bäcke, Z. Ma, Z. Tang, W. Tress, S. Gustafsson, E. Wang, E. Olsson, M. R. Andersson, O. Inganäs and C. Müller, “Sub-glass transition annealing enhances polymer solar cell performance”, J. Mater. Chem. A, 2014, 2, 6146. (IF: 8.8)

23.H. Zheng, Q. Hou, K. Li, Z. Ma, S. Fabiano, F. Gao and F. Zhang, “Solution-processed bulk-heterojunction organic solar cells employ employ Ir complexes as solo electron donor”, J. Mater. Chem. A, 2014, DOI: 10.1039/C4TA01526F (IF: 8.8)

24.W. Cai, C. Musumeci, F. N. Ajjan, Z. Ma, Z. Tang and O. Inganas, “Self-doped conjugated polyelectrolyte with tuneable work function for effective hole transport in polymer solar cells”, J. Mater. Chem. A, 201640, 15670. (IF: 8.8)

25.C. Du, C. Li, W. Li, X. Chen, Z. Bo, C. Veit, Z. Ma, U. Wuerfel, H. Zhu, W. Hu and F. Zhang, “9-Alkylidene-9H-Fluorene- Dr. Zaifei Ma zaifei.ma@iapp.de 4 Containing Polymer for High-Efficiency Polymer Solar Cells”, Macromolecules, 2011, 7617. (IF: 5.5)

26.D. Qian, B. Liu, S. Wang, S. Himmelberger, M. Linares, M. Vagin, C. Muller, Z. Ma, S. Fabiano, M. Berggren, A. Salleo, O. Inganäs, Y. Zou and F. Zhang, “Modulating molecular aggregation by facile heteroatom substitution of diketopyrrolopyrrole based small molecules for efficient organic solar cells”, J. Mater. Chem. A, 2015, 3(48), 24349. (IF: 8.8)

27.S. Bai, Y. Jin, X. Liang, Z. Ye, Z. Wu, B. Sun, Z. Ma, Z. Tang, J. Wang, U. Wuerfel, F. Gao and F. Zhang, “Ethanedithiol Treatment of Solution-Processed ZnO Thin Films: Controlling the Intragap States of Electron Transporting Interlayers for Efficient and Stable Inverted Organic Photovoltaics”, Adv. Energy Mater., 2015, 5(5), 1401606. (IF: 16.7)

主要学术兼职:

1、RSC Advances Organic Electronics 等学术期刊审稿人

联系电话:021-67798721                                                                          E-MAILmazaifei@dhu.edu.cn