张福俊

博士、教授

基本信息

办公电话:13552149521 (微信同号) 电子邮件: fjzhang@bjtu.edu.cn
通讯地址:北京交通大学1号教学楼215房间 邮编:100044

教育背景

1999年, 毕业于中央民族大学 应用物理学专业(学士学位); 2007年, 毕业于北京交通大学 光学(博士学位)

2007年, 北京交通大学  讲师                       2009年, 破格副教授、硕士生导师                     2010年,入选“红果园”人才计划  

2011年, 博士生导师                                   2013年, 破格 教授                                            2014年,入选“卓越百人”人才计划

2016年, 应邀成为SCI期刊Scientific Reports, Energies 期刊编委                                            2018年, 教授 三级岗


http://www.escience.cn/people/zhangfujungroup/index.html 

https://c3.glgoo.top/citations?user=Kzg1dJYAAAAJ&hl=zh-CN&oi=ao

120年风雨交通路,两岸五校今日共享交大荣光  ——收录了我们的研究成果!

https://orcid.org/0000-0003-2829-0735

工作经历


研究方向

  • 有机光电子材料与器件
  • 光电信息工程

招生专业

  • 光学工程硕士
  • 光电信息工程硕士
  • 光学工程博士
  • 光电信息工程博士

科研项目

       主持国家自然科学基金、北京市自然科学基金、教育部高等学校基本科研业务费专题、卓越百人计划等项目

        已毕业的博士生: 王健 (教授)、安桥石 (研究员)、李凌亮(上市公司)、孙倩倩(副教授)、王文斌(上市公司) 、张苗(2019年入选“香江学者”)、马晓玲(2020入选博士后创新计划、副教授)、苗建利(国企)、胡拯豪(国企)、高进华(科学院特别研究助理)

   

教学工作

     主讲本科生《大学物理》、研究生《薄膜制备及表征技术》。 

论文/期刊

   发表SCI检索论文140余篇,其中第一作者或通讯作者论文近100篇,被SCI正面引用11000多次,影响因子大于10的论文40多篇。

   35篇通讯作者论文被“ESI高被引数据库收录; 

   1篇第一作者论文2012年被为"中国百篇最具影响国际学术论文”。

    2016年3月 Prof. Fujun Zhang is the TOP 10% of Highly cited authors in our Physical Portfolio of Journals.  

        http://mxm.mxmfb.com/rsps/m/Rb6vn4DdVG-SgnI0CUUD80KcxMJZ1hsCXiEh832rhoQ

    2016年3月 BJTU news highlight 课题组研究进展

   课题组在三元有机太阳能电池的科研成果被(微头条-文章<

     光电倍增型聚合物探测器的工作被国外媒体highlight

    优化聚合物太阳能电池有源层的载流子平衡提高器件性格的工作被国外媒体Highlight:   

     光谱响应范围可调的倍增型有机光电探测器的工作被Materials Views China Highlight;

     有机小分子三元太阳能电池的效率达到10.16%,该工作被X-MOL报道(2016-11-10);

     张福俊教授主持完成的北京市自然基金项目成果,入选北京市自然基金“十二五”优秀成果选编 (2016-12-19)

     2017年2月,学校新闻网报道了课题组最近研究进展 (链接

     2018年3月,一项科研成果入选“2017年中国光学十大进展”。

    2018年 荣获北京市科学技术三等奖。

    2021年 荣获首届全国颠覆性技术创新大赛 优胜项目 科技部火炬中心

    张福俊教授入选英国皇家化学学会Top 1%中国高被引学者 (2018-2021)

    倍增型有机光电探测器的工作被国际媒体报道highlight

   

******************************

2022年

21. Shuping Zhang, Fujun Zhang* et al.  18.66% efficiency of polymer solar cells employing two non-fullerene acceptors with fluorine or chlorine substitution, Solar RRL, 2022 Accepted

20. Zijin Zhao, Fujun Zhang*, et al.  Filter-Free Narrowband Photomultiplication-Type Planar Heterojunction Organic Photodetectors, Advanced Functional Materials 2022, 32, Accepted

19. Kaixuan Yang, Fujun Zhang*, et al Highly Sensitive Dual-Band Switchable between Ultraviolet and Visible Region Photomultiplication Type Polymer Photodetectors, Advanced Physics Research (Accepted)

18. Ming Liu, Fujun Zhang*, et al. Double layered strategy for broadband photomulitplication type organic photodetectors and achieving narrowband response in violet, red and near infrared light,  ACS Applied Materials & Interfaces 14 (2022) 45636

17. Zhongyuan Liu, Fujun Zhang*, et al 15.28% efficiency of conventional layer-by-layer all-polymer solar cells superior to bulk heterojunction or inverted cells Chemical Engieering Journal 450 (2022) 138146

16.  Xiaochao Zhao, Fujun Zhang*, et al. Photomultiplication type organic photodetectors with different response characteristics under forward or reverse bias Organic Electronics 108 (2022 ) 106587 

15. Wenjing Xu, Fujun Zhang*, et al.  Achieving 15.81% and 15.29% efficiency of all-polymer solar cells based on layer-by-layer or bulk heterojunction structure Journal of Materials Chemistry A 10 (2022) 13492 

14. Kaixuan Yang, Fujun Zhang*, et al. Broadband photomultiplication-type polymer photodetectors and its application in light-controlled circuit Journal of Materials Chemistry C 10 (2022) 10888

13. Zijin Zhao, Fujun Zhang*, et al. Highly Stable Photomultiplication type organic photodetectors with single polymer containing intramolecular traps as active layers, Journal of Materials Chemistry C 10 (2022) 7822-7830

12. Chunyu Xu, Fujun Zhang*, et al. Manipulating donor layer thickness towards efficient organic photovoltaics,  Solar RRL 6 (2022) 2200308 

11. Ming Liu, Fujun Zhang*, et al. Photomultiplication-type wideband organic photodetectors and its application in light-controlled circuit, Science China Chemistry 65 (2022) 1642 

10. Wenjing Xu, Fujun Zhang*, et al. Achieving 17.5% efficiency of polymer solar cells via donor and acceptor layered optimization strategy Journal of Materials Chemistry C 10 (2022) 5489 

9. Xiaoling Ma, Fujun Zhang*, et al. Layer-by-layer organic photovoltaics over 17.8% efficiency via employing solvent additives for the layered optimization, Chemical Engineering Journal 442 (2022) 136368

8. Shuping Zhang, Fujun Zhang*, et al. Boosted efficiency over 18.1% of polymer solar cells by optimizing photogenerated exciton distribution via ternary strategy, Macromolecular Rapid Communications 43 (2022) 2200345   

7. Zijin Zhao, Fujun Zhang*, et al. Highly Narrowband Photomultiplication type organic photodetectors with F-P microavity Advanced Functional Materials 2022, 33, 2203606 

6. Chunyu Xu,  Fujun Zhang*, et al. Recent Progress on All-Small-Molecule Organic Photovoltaics Journal of Materials Chemistry A 10 (2022) 6291

5. Kaixuan Yang, Fujun Zhang*, et al Highly sensitive photomultiplication type polymer photodetectors by manipulating interfacial trapped electron density. Chemical Engieering Journal 435 (2022) 134973

4. Yue Wang, Fujun Zhang*, et al.  Ternary-organic photovoltaics with J71 as donor and two compatible nonfullerene acceptors, Journal of Applied Polymer 60 (2022) 968

3. Wenjing Xu, Fujun Zhang*, et al. Smart ternary strategy in promoting the performance of polymer solar cells based on bulk-heterojunction and layer-by-layer structures, Small 8 (2022) 2104215

2. Kaixuan Yang, Fujun Zhang*, et al. Employing liquid crystal material as regulator to enhance performance of photomultiplication type polymer photodetectors,  Chemical Engieering Journal 427 (2022) 131802

1. Jinhua Gao, Fujun Zhang*, et al. Over 17.7% efficiency ternary organic solar cells with open circuit voltage 1.03 V material as the third component,  Chemical Engieering Journal 428 (2022) 129276

2021年

19. Xiaoling Ma, Fujun Zhang*, et al.  Over 17% efficiency of ternary organic photovoltaics by employing two non-Y6 acceptors with A-D-A configuration  ACS Applied Materials & Interfaces 13 (2021) 57684

18. Xuelin Wang, Fujun Zhang*, et al. Two Y6 derivations with similar chemical structure as one alloyed acceptor enable efficient ternary blend polymer-solar-cells, ACS Appl. Energy Mater.  4 (2021) 11761-11768

17. Chunyu Xu, Fujun Zhang*, et al. Semitransparent Organic Photovoltaics Prepared by Wide Bandgap Polymer with Narrow Photon Harvesting in Visible Light Range, Adv. Funct. Mater. 2021, 31, 2107934

16. Shuping Zhang, Fujun Zhang*, et al. Ternary polymer solar cells with iridium-based polymer PM6Ir1 as donor and N3 and ITIC-Th as acceptors exhibiting over 17.2% efficiency Substainable Energy & Fuels 5 (2021) 5825-5832

15. Zijin Zhao, Fujun Zhang*, et al.Highly Sensitive Narrowband Photomultiplication Type Organic Photodetectors Prepared by Transfer-Printed Technology Adv. Funct. Mater. 2021, 31, 2106009

14. Yue Wang Jinhua Gao, Fujun Zhang*, et al. Organic photovoltaics with 300 nm thick ternary active layer exhibiting 15.6% efficiency J. Mater. Chem. C 9 (2021) 9892-9898

13. Jinhua Gao, Fujun Zhang*, et al. Over 16% efficiency of thick-film organic photovoltaics with symmetric and asymmetric non-fullerene materials as alloyed acceptor, Solar RRL 5 (2021) 2100365

12. Zijin Zhao, Fujun Zhang*, et al.  Highly sensitive all-polymer photodetectors with ultraviolet-visible to near-infrared photo-detection and its application as optical switch, Journal of Materials Chemistry C 9  (2021) 5349-5355

11. Ming Liu, , Fujun Zhang*, et al. Highly sensitive broad-band organic photomultiplication type photodetectors covering UV-Vis-NIR, Journal of Materials Chemistry C 9  (2021) 6357-6364

10. Chunyu Xu, Fujun Zhang*, et al. Over 17.6% efficiency organic photovoltaics with double compatible polymer donors, Solar RRL 5 (2021) 2100175

9. Kaixuan Yang, Fujun Zhang*, et al. A Smart Strategy: Transparent Hole-Transporting Polymer as Regulator to Optimize Photomultiplication-Type Polymer PhotodetectorsACS Applied Materials & Interfaces 13 (2021) 21565-21572

8. Zijin Zhao, Fujun Zhang*, et al.  Photomultiplication Type Polymer Photodetectors Exhibiting Sub-Microsecond Response Time, SCIENCE CHINA Chemistry 64 (2021) 1302-1307

7. Xiaoling Ma, Fujun Zhang*, et al. Approaching 18% efficiency of ternary organic photovoltaics with wide bandgap polymer donor and well compatible Y6:Y6-1O as acceptor, National Science Review 8 (2021) nwaa305

6. Zhenghao Hu, Fujun Zhang*, et al. Semitransparent ternary organic solar cells exhibiting 13.02% efficiency and 20.2% average visible transmittance, Journal of Materials Chemistry A 9 (2021) 6797

5. Ming Liu, Fujun Zhang*, et al. Narrowband Photomultiplication Organic Photodetectors by Employing Phosphorescent Material as Optical Field Adjusting Layer, The Journal of Physical Chemistry C 125 (2021) 18536

4. Xuelin Wang, Fujun Zhang*, et al. Ternary organic photovoltaic cells exhibiting 17.59% efficiency with two compatible Y6 derivations as acceptor, Solar RRL5 (2021) 2100007

3. Ming Liu, Fujun Zhang*, et al. Ultra-narrowband NIR Photomultiplication Organic Photodetectors based on Charge Injection Narrowing, The Journal of Physical Chemistry Letters 12 (2021) 2937-2943

2.  Mengyao Liu, Fujun Zhang*, et al., Broadband photomultiplication type organic photodetectors, Physcial Chemistry Chemical Physics 23 (2021) 2923-2929

1. Chunyu Xu, Fujun Zhang* et al., 14.46% efficiency ternary small molecules organic photovoltaics, Journal of Energy Chemistry 57 (2021) 610-617

2020年

17. Miao Zhang, Fujun Zhang*, et al. Review on smart strategies for achieving highly efficient ternary polymer solar cells, APL Materials 8 (2020) 090703 

16. Zhenghao Hu, Fujun Zhang* et al.,  A Critical Review on semitransparent organic solar cells, Nano Energy 78 (2020) 105376 

15. Zijin Zhao, Fujun Zhang* et al., A Critical Review: Broadband Organic Photodetectors and their Application, Laser Photonics Review (2020)  2000262 

14. Jinhua Gao, Fujun Zhang* et al. A critical review on efficient thick-film organic solar cells,  Solar RRL 4 (2020) 2000364

13. Ming Liu,Fujun Zhang* et al.,  Broadband organic photodetectors exhibiting photomultiplication with narrow bandgap non-fullerene acceptor as electron trap, Journal of Materials Chemistry C 8 (2020) 9854-9860 

12. Xiaoling Ma,  Fujun Zhang* et al., Achieving 17.4% efficiency of ternary organic photovoltaics with two well-compatible nonfullerene acceptors for minimizing energy loss, Advanced Energy Materials (2020) 2001404 

11. Chunyu Xu, Fujun Zhang* et al. J71 based ternary organic photovoltaics exhibiting 13.65% efficiency, Sustainable Energy & Fuels 4 (2020) 3979 

10. Zhenghu Hu, Fujun Zhang* et al. Over 15.7% PCE of ternary organic solar cells by empolying two compatible acceptors two similar LUMO levels and complementary photon harvesting range, Small 16 (2020) 2000441 

9. Kaixuan Yang, Fujun Zhang* et al. Covering violet-visible-near infrared broadband organic photodetectors with photomultiplication Organic Electronics 83 (2020) 105739 

8. Zijin Zhao,  Fujun Zhang* et al, Photomultiplication Type Broad Response Organic Photodetectors with One Absorber Layer and One Multiplication Layer,  Journal of Physical Chemistry Letters 11 (2020) 366-373

7. Xiaoling Ma, Fujun Zhang*, et al. Efficient ternary organic photovoltaics with two polymer donors by minimizing energy loss, Journal of Materials Chemistry  8 (2020) 1265-1272

6. Qiaoshi An, Fujun Zhang* ,et al. Ternary polymer solar cells with alloyed acceptor exhibiting over 17.2% PCE Science Bulletin 65 (2020) 538-545

5.  Jinhua Gao, Fujun Zhang*,  et al. Over 14.5% efficiency and 71.6% Fill factor of ternary solar cells with 300 nm thick active layer, Energy & Environmental Science 13 (2020) 958-967 

4. Jinhua Gao, Fujun Zhang*, et al. Over 16.7% efficiency of ternary organic photovoltaics by employing extra PC71BM as morphology regulator SCIENCE CHINA Chemistry 63 (2020) 83-91 

3. Zijin Zhao,  Fujun Zhang* et al.Photomultiplication type organic photodetectors with interfacial band bending assisted electron tunneling injection Nanoscale 12 (2020) 1091-1099

2. Zhenghao Hu,  Fujun Zhang* et al.Semitransparent polymer solar cells with 12.37% efficiency and 22.7% average visible transmittance Science Bulletin 65 (2020) 131-137

1. Xiaoling Ma,  Fujun Zhang* et al. Highly efficient quaternary organic photovoltaics by optimizing photogenerated exciton distribution and active layer morphology Nano Energy 70 (2020) 104496  

2019年

20. Chunyu Xu, Fujun Zhang*, et al. Ternary small molecules organic photovoltaics exhibiting 12.84% efficiency Nano energy 66 (2019) 104119

19. Jianli Miao, Fujun Zhang*, et al. Photomultiplication type all-polymer photodetectors with single carrier transport property,   SCIENCE CHINA Chemistry 62(2019) 1619 

18. Miao Zhang,  Fujun Zhang* et al.13.26% Efficiency Polymer Solar Cells by Optimizing Photogenerated Exciton Distribution and Phase Separation with the Third Component,  Solar RRL3 (2019) 1900269 

17. Jianxiao Wang, Fujun Zhang*, et al. Two well-compatible acceptors with efficient energy transfer enable ternary organic photovoltaics exhibiting a 13.36% efficiency, Small 15 (2019) 1902602 

16. Bohan Yu,  Fujun Zhang* et al. Inverted ternary organic photovoltaics with alloyed acceptor exhibiting 12.29% efficiency , Physica Status Solidi (RRL) - Rapid Research Letters (2019) 1900217

15. Jinhua Gao, Fujun Zhang* et al. Ternary organic solar cells with J71 as donor and alloyed acceptors exhibiting 13.16% efficiency Nano Energy 63 (2019)  103888 

14.  Qiaoshi An, Fujun Zhang* et al. Solvent additive-free ternary polymer solar cells with 16.27% efficiency, Science Bulletin 64 (2019) 504

13. Kaixuan Yang, Fujun Zhang* et al. Progress on photomultiplication type organic photodetectors with hole-only transport property Journal of Materials Chemistry C 7(2019) 9633 

12. Chunyu Xu, Fujun Zhang* et al.. Ternary organic solar cells with two well-compatible donors exhibiting 12.26% efficiency and 75.53% fill factor Organic Electronics 71 (2019) 272

11. Zijin Zhao, Fujun Zhang* et al..Photomultiplication type Organic Photodetectors with tunable spectral response range, Organic Electronics 69 (2019) 354

10. Jinhua Gao, Fujun Zhang* et al.. One key issue in characterization of organic solar cells with solution processed interfacial layer, Phys. Chem. Chem. Phys. 21 (2019) 5790

9. Xiaoling Ma, Fujun Zhang*, et al.  Achieving 14.11% efficiency of ternary polymer solar cells by simultaneously optimizing photon harvesting and exciton distribution, Journal of Materials Chemistry A 7 (2019) 7843

8. Zhenghao Hu, Fujun Zhang* et al., Semitransparent polymer solar cells with 9.06% efficiency and 27.1% average visible transmittance by employ smart strategy Journal of Materials Chemistry A 7 (2019) 7025

7. Miao Zhang, Fujun Zhang* et al., Ternary Polymer Solar Cells with Alloyed Non-fullerene Acceptor Exhibiting 12.99% Efficiency and 76.03% Fill Factor Nano Energy 59 (2019) 58

6.Jianli Miao, Fujun Zhang*, Recent Progress on Highly Sensitive Perovskite Photodetectors Journal of Materials Chemistry C 7 (2019) 1741

5. Qiaosih An, Fujun Zhang*, Ternary polymer solar cells with alloyed donor achieving 13.62% efficiency and 76.2% fill factor Nano Energy 60 (2019) 768

4. Jianxiao Wang, Fujun Zhang*, Combining superiority photovoltaic parameters of two binary polymer solar cells into one ternary cell achieving 11.78% efficiency, Organic Electronics 67 (2019) 253 

3. Jianli Miao, Fujun Zhang*, Acceptor-free Acceptor-Free Photomultiplication Type Organic Photodetectors,  Nanoscale 11 (2019) 16406

2. Jianli Miao, Fujun Zhang*, Recent Progress on Photomultiplication type organic photodetectors, Laser & Photonics Reivews 13 (2019) 1800204

1. Zhenghao Hu, Fujun Zhang*,  Semitransparent Ternary Nonfullerene Polymer Solar Cells Exhibiting 9.40% Efficiency and 24.6% Average Visible Transmittance Nano Energy 55 (2019) 424

2018年

19. Simei Zeng, Fujun Zhang*, Efficient polymer solar cells with open circuit voltage of 1.01 V and power conversion efficiency of 8.09%, ACS Omega 3 (2018) 11562 Invited paper

18. Xiaoling Ma, Fujun Zhang*, Stimultaneously Improved PCE and AVT of semitransparent ternary PSCs Journal of Materials Chemistry A 6 (2018) 21485

17. Wei Gao, Fujun Zhang*, Chuluo Yang*, Designing asymmetrical isomer to promote LUMO energy level and molecule packing of non-fullerence acceptor for polymer solar cells with 12.6% efficiency, Chem. Sci. 9 (2018) 8142

16. Teng Tang, Fujun Zhang, Liwei Chen*, Improved photomultiplication in inverted structure organic photodetectors vis interfacial engineering, Apl. Phys. Lett.113 (2018) 043303

15. Qiaoshi An, Fujun Zhag*, Efficienty ternary polymer solar cells with two compatible non-fullerence as one alloyed acceptor Small (2018) 1082983

14. Miao Zhang, Fujun Zhang*, Liming Ding*, Over 13% PCE of Ternary polymer solar cells with cocked-up asborption edge by incorporating medium band gap material, Adv. Energy Mater., 8 (2018)1801968

13. Jianxiao Wang, Fujun Zhang*, Highly efficient ternary polymer solar cells with PCE over 11.6%, Journal of Materials Chemistry A 6 (2018) 11751 

12. Wei Gao, Miao Zhang, ...., Feng Liu*, Fujun Zhang*, CHuluo Yang*, Asymmetrical Ladder- Type DOnor Induced Polar Small Molecules Acceptor to Promote Fill Factors Approaching 77% for High Performance Nonfullerene Polymer solar cells, Advanced Materials, 2018, 201800052 

11. Li Sun, Xiaoling Ma,..., Fujun Zhang*, Weihua Tang*, et al. Fused Non-fullerene acceptor enabling over 13% efficiency for organic solar cells, Adv. Mater. 8 (2018) 1707150 

10. Xiaoling Ma, Fujun Zhang*, et al. Ternary nonfullerene polymer solar cells with PCE>13.7% by simultaneously improved three key photovoltaic parameters, Energy Enviormental Sicence 11 (2018)2134-2141 

9. Huixin Qi, Fujun Zhang* et al., Ternary organic solar cells with high absorption coefficient small moleucle DIB-SQ as the third component Chinese Physics B 27(2018) 058802 本科生第一作者

8. Zhenghao Hu, Fujun Zhang*, HIghly efficient ternary organic solar cells based on a new strategy ACS Energy Letters 3 (2018) 555-561 

7. Wenbin Wang, Fujun Zhang*, Highly sensitive organic photodetectors  with dual response window Advanced Optical Materials 6 (2018) 1800249

6. Jianli Miao, Fujun Zhang*, Highly sensitive organic photodetectors exhibiting broadband and narrowband response ability Adv. Opt. Mater. 6 (2018) 1800001 

5. Miao Zhang, Fujun Zhang*, et al. Two nonfullerene acceptors for high efficient polymer solar cells with FF exceeding 77%, Energy Enviormental Science 11 (2018) 841 

4. Qiaoshi An, Fujun Zhang*, et al. Energy level modulation of Non-fullerene acceptor enables efficient polymer solar cells with low energy loss J. Mater. Chem. A 6 (2018) 2468

3. Jiangsheng Yu, ..., Fujun Zhang* Weihua Tang*, et al. Conformation locking on fused-ring electron acceptor for high performance non-fullerene organic solar cells Adv. Funct. Mater. (2018) 1705095 

2. QIaoshi An, Fujun Zhang*, et al. HIgh-efficiency and air stable fullerene-free ternary organic solar cells Nano Energy 45 (2018) 177-183 

1. Xiaoling Ma, Fujun Zhang*, Efficient ternary polymer solar cells with two well-miscible donors and an ultra-narrow bandgap nonfullerence acceptor Adv. Energy Mater.  8 (2018) 1702854   ESI highly cited paper

2017年

12. Lingliang Li, Fujun Zhang*, Jinsong huang*, Self-filter narrow-band perovskite photodetectors with ultrafast and tuned spectral response, Adv. Opt. Mater. 2017, 1700672 

11. Wei Gao, Qiaoshi An,... Fujun Zhang*, Chuluo Yang*, Side group engineering of small molecular acceptors for high performance Fullerene-free polymer solar cells:Thiophene being superior to selenophen, Adv. Funct. Mater. 2017,1702194

10. Miao Zhang, Fujun Zhang*, et al. Ternary small molecule solar cells with 10.3% efficiency Nano Energy 39 (2017) 571-581 

9. Xiaoling Ma, Fujun Zhang*, et al. Highly efficient and stable ternary polymer solar cells with liquid crystal material as the third component, Journal of Materials Chemistry A 5 (2017) 13145 -13153

8. Wenbing Wang, Fujun Zhang*, et al. Highly sensitive mixed Tin-Lead perovskite photodetectors with broad response range from 300 to 1050 nm Adv. Funct. Mater. (2017) 1703953 

7. Jianli Miao, Fujun Zhang*, et a., Adjustable, bi-directional narrowband response photomultiplication type organic photodetectors, Physical Chemistry Chemical Physics, 19 (2017) 14424

6. QIanqian Sun, Fujun Zhang*, et al., Enhanced efficiency and stability of polymer solar cells by employing active layer up-side-down drying method, ACS Applied Materials & Interfaces 9 (2017) 8863 

5. Miao Zhang, Fujun Zhang*, et al., Nematic Liquide Crystal Materials as Morphology Regulator for Ternary Solar Cells with Power Conversion Efficiency Excedding 10%, Journal of Materials Chemistry A 5(2017) 3589-3598

4. Wenbin Wang, Fujun Zhang*, et., Highly narrowband photomultiplication type organic photodetectors Nano Letters 17 (2017) 1995-2002 

3. Xiaoling Ma, Fujun Zhang*, et al. Highly efficient soultion processed small molecules solar cells by syngistically optimizing molecular aggregatopm amd crystallinity ACS Sustainable Chemistry & Engineering 5 (2017) 1982-1989 

2.  Mile Gao, Fujun Zhang*, et al, Photomultiplication ternary polymer photodetectors with broad and intense spectral response, Chinese Physics B 26 (2017) 018201

1. Qianqian Sun, Fujun Zhang*et al, Collaboratively optimizing the active layer self-assembly and methanol soaking time for highly efficient polymer solar cells,  Physical Chemistry Chemical Physics 19 (2017) 709-716 

2016年发表的影响因子10以上的论文4篇,累计SCI引用超过400次, 2篇论文被ESI高被引数据收录 

8. Qiaoshi An, Fujun Zhang*, et al. High-performance ternary organic solar cells by alloying two small molecular donors, Nano Energy, 30 (2016) 276-282 

7. Jianli Miao, Fujun Zhang*, et al., HIghly sensitive organic photodetectors with tunable spectral response working bidirectional bias, Advanced Optical Materials 4 (2016) 1711-1717 [Communication]

6. Jian Wang, Fujun Zhang*, et al.,  Efficient ternary organic photovoltaic cells with better trade-off photon harvesting and phase separation by doping QIB-SQ, Journal of Materials Chemistry C 4 (2016) 7809 

5. Qiaoshi An, Fujun Zhang*, et al, Efficient Organic Ternary Solar Cells with the Third Component as Energy Acceptor,  Nano Energy 26 (2016) 180-191

4.  Jian Wang, Fujun Zhang*, et al, Adjusting acceptor redistribution for highly efficient solvent additive-free poilymer solar cells, Journal of Materials Chemistry C 4 (2016) 3202-3208

3. Wenbin Wang, Fujun Zhang*, et al,  Photomultiplication photodetectors with P3HT:Fullerence-free material as the active layers exhibiting a broad response,  Nanoscale 8(2016) 5578-5586

2. Miao Zhang, Fujun Zhang*, et al. Highly efficient ternary polymer solar cells by optimizing photon harvesting and charge carrier transport, Nano Energy 22 (2016) 241-254 ESI 高被引

1. Qiaoshi An, Fujun Zhang*, et al. Versatile ternary organic solar cells: A Critical Review, Energy & Enviromental Science 9 (2016) 281-322 热点论文 ESI 高被引(千分之一

2015年发表论文14篇,年度论文被引用350次左右:

57. Miao Zhang, Fujun Zhang*, et al. Efficient ternary polymer solar cells with parallel-like structure,  Journal of Materials Chemistry C 3 (2015) 11930-11936  

56. JIan Wang, Fujun Zhang*, et al.  Enhanced performance of narrow bandgap polymer solar cells by adjusting phase separation, Physical Chemistry Chemical Physics  17 (2015) 29671-29678

55. Wenbin Wang, Fujun Zhang*, et al. Improved performance of photomultiplication polymer photodetectors by adjusting self-assembly process, ACS Applied Materials & Interfaces  7 (2015) 22660-22668 

54. Qianqian Sun, Fujun Zhang*, et al. Two-steps strategy to clarify the roles of solution processed PFN interfacial layer in efficient polymer solar cells,  Journal of Materials Chemistry A 3 (2015) 18432-18441 (http://pubs.rsc.org/en/content/articlelanding/2015/ta/c5ta05117g#!divAbstract) (Hot article)

53. Qiaoshi An,  Fujun zhang*, et al.  Efficienty ternary small molecular solar cells by synergistic optimized photon harvesting and phase separation, Journal of Materials Chemistry A 3 (2015) 16653-16662

52.  Lingliang Li, Fujun zhang*, et al.  Revealing the underlying mechanism of polymer photodetectors with ultrahigh EQE in exceeding of 100,000%  Physical Chemistry Chemical Physics 17 (2015) 30712-30720 

51.  Wenbing Wang, Fujun zhang*, et al., Highly sensitive photomultiplication polymer photodectors with wide spectral response from UV to NIR, Journal of Materials Chemistry C 3 (2015) 7386-7393  

50. Miao Zhang,Fujun Zhang*, et al., HIgh efficient ternary polymer solar cells based on absorption complementary materials as electron donor, Solar Energy Materials & Solar cells 141 (2015) 154-161

49. Lingliang Li, Fujun Zhang*, et al.Trap-assisted photomultiplication polymer photodectors obtaining an external quantum efficiency of 37,500%, ACS Appl. Mater. Interfaces 7 (2015) 5890-5897 

48. Qianqian Sun, Fujun Zhang*, et al. Revealing Donor/Acceptor Intermolecular Arrangement effect on Soultion Processed Organic Solar Cells Performance Organic Electronics 24 (2015) 30-36

47. Qiaoshi An, Fujun Zhang* et al., Simultaneous improvement three key parameters of P3HT:PC71BM solar cells through ternary strategy, ACS Appl. Mater. Interfaces, 7(2015)3691 ESI高被引论文(前1%)

46. Jian Wang, Fujun Zhang,* Optimization of charge carrier transport balance for performance improvement  of PDPP3T-based polymer solar cell from hot solution, Physical Chemistry Chemical Physics 17  (2015) 9835 

45. LingLiang Li, Fujun Zhang*, et al. Achieving EQE of 16,700% in P3HT:PCBM based photodetectors by trap-assisted photomultiplication, NPG Scientific Reports 5(2015)9181

2014年 

44. Zihong Han, Fujun Zhang* et al., Solution processed polymer photodetectors with trap-assisted photomultiplication, SCIENCE CHINA Physics, Mechanics & Astronomy 58 (2015) 054201

43. Dong Yang, Ping Fu, Fujun Zhang, Nan Wang, Jian Zhang*, Can Li*, High efficiency inverted polymer solar cells with room temperature TiO2/polyethylenimine films as electron transport layer, Journal of Materials  Chemistry A  41(2) (2014)17281-17285 

42.  Qianqian Sun, Fujun Zhang * et al. Photovolatic performance of D-A polymer and its application in ternary polymer solar cells, Electronic Materials Letters  11 (2015) 236 IF=3.9 

41. Xixiang Zhu, Fujun Zhang* et al. Effect of solvent additive and ethanol treatment on the performance of PIDTDTQx:PC71BM polymer solar cells, Solar Energy Materials & Solar cellsAccepted 132 (2015) 528-534 , IF=5.0  

40. Dun Wang, Fujun Zhang*, et al., Tuning Nanoscale Morphology by mixed solvents and solvent varpor treatment for 7.58% efficiency PBDTTT-EFT based on polymer solar cells RSC Advances 4(89) (2014)  48724-48733 , IF=3.7

39. Jian Wang, Fujun Zhang*, et al.  Enhanced performance of polymer solar cells by dipole-assisted hole extraction, Solar Energy Materials & Solar cells, 130 (2014) 15-19, IF=5.0

38. Qiaoshi An, Fujun Zhang* et al. Enhanced performance of polymer solar cells by employing ternary cascade energy structure, Physical Chemistry Chemical Physics16 (2014) 160103-16109 IF=4.1

37.  Qiaoshi An, Fujun Zhang*, Lingliang Li,  Jian Wang, Jian Zhang,  Lingyu Zhou, Weihua Tang, Improved Efficiency of Bulk Heterojunction Polymer Solar Cells by Doping Low Bandgap Small Molecule, ACS Appl. Mater. Interfaces, 6 (2014) 6537-6544, IF=5.9  

36. Dun Wang, Jian Wang, Fujun Zhang* et al.  ultrathin anode buffer layer for  enhancing performance of polymer solar cells, International Journal of Photoenergy VOl. 2014, 846581

35. Zixuan Wang, Fujun Zhang*, Lingliang Li, Qiaoshi An, Jian Wang, Jian Zhang, The underlying reason of DIO additive on the improvement polymer solar cells performance, Applied Surface Science 305 (2014) 221-226 IF=2.5

34. Xixiang Zhu, Qiaoshi An, Hui Huang, Chaoqun Jiao, Fujun Zhang*, Improved efficiency of the ternary blend polymer solar cells by doping a narrow band gap polymer material, SCIENCE CHINA Physics, Mechanics & Astronomy (Accepted) IF=1.3

33. Jian Wang, Chaoqun Jiao, Hui Huang, Fujun Zhang*, The effect of DIO additive on performance improvement of polymer solar cells, Chinese Science Bulletin 36 (2014) 3227-3231 IF=1.4

32. Qianqian Sun, Qiaoshi An, Fujun Zhang*, A simple encapsulation method for organic optoelectronic devices, Chinese Physics B 23(8) (2014) 083302 IF=1.3

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2013年

31. Jian Wang, Fujun Zhang*, Jian Zhang, Weihua Tang, Aiwei Tang, Hongshang Peng , Zheng Xu, Feng Teng, Yongsheng Wang, Key issues and recent progress of high efficient organic light-emitting diodes, Journal of Photochemistry and Photobiology C: Photochemistry Reviews 17 (2013) 69-104 IF=11.3

30. Enwei Zhu, Jiefeng Hai, Zixuan Wang, Bin Ni, Yaohua Jiang, Linyi Bian, Fujun Zhang*, Weihua Tang*, Two-Dimensional Polyfluorenes Bearing Thienylenevinylene π-Bridge-Acceptor Side Chains for Photovoltaic Solar Cells, Journal of Physical Chemistry C, 117 (47) (2013) 24700–24709 IF=4.6

29. Qiaoshi An, Fujun Zhang*, Jian Zhang, Weihua Tang, Zixuan Wang, Lingliang Li, Zheng Xu, Feng Teng, Yongsheng Wang, Enhanced performance of polymer solar cells through sensitizationby a narrow band gap polymer, Solar Energy Materials and Solar Cells 118 (2013) 30-35 IF=4.6

28. Yang Liu, Fujun Zhang*, Haidao Dai, Weihua Tang, Zixuan Wang, Jian Wang, Aiwei Tang, Hongsheng Peng, Zheng Xu, Yongsheng Wang, Interfacial layer for efficiency improvement of solution-processed small molecular solar cells, Solar Energy Materials and Solar Cells 118 (2013) 135-140 IF=4.6

27. Lingliang Li, Fujun Zhang*, Qiaoshi An, Zixuan Wang, Aiwei Tang, Hongshang Peng, Zheng Xu, Yongsheng Wang Organic ultraviolet photodetector based on phosphorescent material, Optics Letters 38 (2013) 3823-3826 IF=3.3 (NEWSbreaks highlighted by Laser Focus World Oct. 2013, 11

26. Lingliang Li, Fujun Zhang*, Zixuan Wang, Qiaoshi An, Jian Wang, Zheng Xu, Organic Visible-Blind Ultraviolet Photodetectors Based on Rare Earth Complex, Acta Phys. -Chim. Sin. 29 (12) (2013) 2624-2629, 2013年第12期封面故事

25. Zixuan Wang, Fujun Zhang*, Jian Wang, Yang Liu, Zheng Xu, effect of doping phosphorescent material and annealing treatment on the performance of polymer solar cells, International Journal of Photoenergy, 2013, 273586 IF=2.6

24. JianWang, Fujun Zhang*, Bo Liu, Zheng Xu, Jian Zhang, Yongsheng Wang, Emission colour-tunable phosphorescent organic light-emitting diodes based on the self-absorption effect and excimer emission, Journal of Physics D: Applied Physics, 46 (2013) 015104 IF=2.5

23. Jiefeng Hai, Enwei Zhu, Linyi Bian, Jin Wang, Zixuan Wang, Yang Li, Liangming Yin, Fujun Zhang*, Weihua Tang*, Synthesis, optical, electrochemical and electroluminescent properties of novel fluorene-alt-bithiophene copolymers bearing phenylvinyl bridged accepting side chains, European Polymer Journal, 49 (2013) 3610–3618 IF=2

22. Yusheng Xin, ZixuanWang, Lu Xu, Xiaowei Xu, Yang Liu, Fujun Zhang*, UV-Ozone Treatment on Cs2CO3 Interfacial Layer for the Improvement of Inverted Polymer Solar Cells, Journal of Nanomaterials, 2013, 104825, DOI: 10.1155/2013/104825 IF=1.3

21. Yang Liu, Fujun Zhang*, Jian Wang, Organic photovoltaic cells based on PbPc nanocolumns prepared by glancing angle deposition, International Journal of Photoenergy, 2013, DOI:10.1155/2013/346818 IF=2.6

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2012年及以前部分代表作

20. Linyi Bian, Enwei Zhu, Jian Tang, Weihua Tang, Fujun Zhang*, Recent progress in the design of narrow bandgap conjugated polymers for high-efficiency organic solar cells, Progress in Polymer Science 37(2012) 1292-1331, IF=26 ESI高引数据库收录

19. Xiaowei Xu, Fujun Zhang*, Jian Zhang, Hui Wang, Zuliang Zhuo, Yang Liu, Jian Wang, Zixuan Wang, Zheng Xu, High efficient inverted polymer solar cells with different annealing treatment, Materials Science and Engineering C 32 (2012) 685–691

18. Fujun Zhang*, Zuliang Zhuo, Jian Zhang, Xin Wang, Xiaowei Xu, Zixuan Wang, Yusheng Xin, Jian Wang, Jin Wang, Weihua Tang, Zheng Xu, Yongsheng Wang, Influence of PC60BM or PC70BM as electron acceptor on the performance of polymer solar cells, Solar Energy Materials & Solar Cells, 97 (2012) 71–77

17. Weihua Tang*, Jiefeng Hai, Yun Dai, Zongjun Huang, Bingqin Lu, Fujun Zhang*, Recent development of conjugated oligomers for high-efficiency bulk-heterojunction solar cells, Solar Energy Materials and Solar Cells 94 (2010) 1963-1979

16. Fujun Zhang*,Dewei Zhao, Zuliang Zhuo, Hui Wang, Zheng Xu, Yongsheng Wang, Inverted small molecule organic solar cells with Ca modified ITO as cathode and MoO3 modified Ag as anode, Solar Energy Materials & Solar Cells, 94 (2010) 2416–2421

15. Fujun Zhang*,Xiaowei Xu, Weihua Tang, Jian Zhang, Zuliang Zhuo, Jian Wang, Jin Wang, Zheng Xu, Yongsheng Wang, Recent development of the inverted configuration organic solar cells,Solar Energy Materials & Solar Cells, 95 (2011) 1785–1799 ESI高引数据库收录,2012年被评为中国百篇最具影响国际学术论文。

14. Fujun Zhang*,Fengyong Sun, Yuzhu Shi, Zuliang Zhuo, Lifang Lu, Dewei Zhao, Zheng Xu, Yongsheng Wang, Effect of an ultra-thin molybdenum trioxide layer and illumination intensity on the performance of organic photovoltaic devices,Energy Fuels, 24 (2010) 3739–3742

13. Fujun Zhang*,Xiaojun Liu, Feng Huang, Zuliang Zhuo, Lifang Lu, Zheng Xu,Yongsheng Wang, Xutang Tao, Wensheng Bian, WeiHua Tang, The effect of metal electron cloud on the luminescence characteristics of organic ligands: An experimental and theoretical investigation,Chinese Science Bulletin, 56 (2011) 479-483

12. Jian Wang, Fujun Zhang*,Zheng Xu, Yongsheng Wang, Luminescence Characteristics of Blue Emission Phosphorescent Material Flrpic,Acta Physico-Chmica Sinica, 28 (2012) 949-956(2012年第4期期刊封面)

                             该论文被选为该刊2012年发表的高被引论文 http://www.whxb.pku.edu.cn/CN/column/column127.shtml  

11. XiaoWei Xu, Enwei Zhu, Linyi Bian, ZiXuan Wang, Jin Wang, ZuLiang Zhuo, Jian Wang, Fujun Zhang*,WeiHua Tang, Luminescent and photovoltaic properties of poly(9,9-dioctylfluorene-co-bithiophene) in organic electronic devices,Chinese Science Bulletin, 57 (2012) 970-975

10. Fujun Zhang*,Yuan Li, Weihua Tang, Jian Wang, Xiaowei Xu, Zuliang Zhuo, Zheng Xu, Yongsheng Wang, David Carroll, Pentacene nanostructural interlayer for the efficiency improvement of polymer solar cells,Thin Solid Films, 520 (2011) 676-679

9.  Zuliang Zhuo, Fujun Zhang*, Yuguang Lv, Zheng Xu, Lifang Lu, Junming Li, YongshengWang, Synthesis and characterization of the europium (III) complex as an organic luminescent material,Physica Script, 2010, 82, 055703

8.  Zuliang Zhuo, Fujun Zhang*, Jian Wang, Jin Wang, Xiaowei Xu, Zheng Xu, Yongsheng Wang, Weihua Tang, Efficiency improvement of polymer solar cells by iodine doping,Solid-State Electronics, 63 (2011) 83–88

7.  卓祖亮, 张福俊*, 许晓伟,  王健,  卢丽芳,  徐征,  退火处理提高P3HT:PCBM聚合物太阳能电池光伏性能, 物理化学学报,27 (2011) 875-880

6.  Zixuan Wang, Fujun Zhang*, Jin Wang, Xiaowei Xu, Jian Wang, Yang Liu, Zheng Xu, Organic photovoltaic cells: Novel organic semiconducting materials and molecular arrangement engineering,Chinese Science Bulletin, 57 (2012) 4143-4152

5.  Fujun Zhang*, Zheng Xu, Dewei Zhao, Guangcai Yuan, Zhiming Cheng, Improved performance of organic light emitting diodes by pentacene as hole transporting layer,Applied Surface Science 255(5) (2008) 1942-1944

4.  Fujun Zhang*,Zheng Xu, Enhanced red electroluminescence intensity of Eu(o-BBA)3 (phen) by red dye co-doping and inorganic semiconductor as charge carrier function layer,Solid-State Electronics, 52(11) ( 2008) 1806

3.  Fujun Zhang*, Suling Zhao, Zheng Xu, Jinzhao Huang, Guancai Yuan, Yuan Li, Yong Wang, Xurong Xu, How to restrain electroplex emission and enhance red emission intensity of Eu3+ complex? Optical Materials 30 (2007) 427

2.  Fujun Zhang*,Zheng Xu, Dewei Zhao, Suling Zhao, Weiwei Jiang, Guangcai Yuan, Dandan Song, Yongsheng Wang, Influence of evaporation conditions of Alq3 on the performance of organic light emitting diodes, J. Phys. D: Appl. Phys. 40 (2007) 4485

1.  Fujun Zhang, A.Vollmer, J. Zhang, Z.Xu, J. P. Rabe, N. Koch*, Energy level alignment and morphology of interfaces between molecular and polymeric organic semiconductors,Organic Electronics 8 (2007) 606 (IF=3.9) ESI高引数据库收录
 

专著/译著

 1. 张福俊.Research on Luminescent Characteristics of Organic Europium Complexes[M]  国外:Nova Publisher,2010-12

专利

1、 基于并五苯为空穴传输层的电致发光器件, 张福俊等,专利号:ZL 2007 10177321.9

2、 高真空场调制有机小分子定向纳米薄膜的制备方法及系统, 张福俊等,专利号:ZL 2009 1 0076567. 6

3、 倾斜式生长形貌可控的纳米发光柱状薄膜的方法及装置, 张福俊 等;专利号:ZL 2009 1 0077117.9

4、 同步光泵浦的有机薄膜晶体管, 张福俊 等,专利号:ZL 2008 1 0116161.1

5、 一种有盖的蒸镀用的石英舟, 张福俊 等,专利号:ZL 2007 2 0103895.7 (实用新型)

6、 一种提高光输出耦合效率的有机电致发光器件及其制备方法, 张福俊 等; 专利号:ZL 2010 1 0184678.1

7、基于单一发光材料实现发光颜色可调的有机电致发光器件,张福俊 等; ZL:2011 1 02368692 

8、制备有机太阳能电池的方法及制备其薄膜的装置,辛宇圣;张福俊 等; ZL:2012 1 00061580

软件著作权

获奖与荣誉

指导研究生获奖情况:

     【北京市优秀博士学位论文】

       2022年  高进华

     【全国光学工程学科优秀博士学位论文】

     2021年  张苗

    【中国光学学会郭光灿光学优秀博士学位论文】

     2022年  马晓玲 获 提名奖 

     【北京市优秀毕业生】

      2020年 马晓玲; 2019年 张苗; 2017年 安桥石; 2016年 王健; 2014年 安桥石(硕士)

    【王大珩光学奖高校学生奖】

      2022年 赵子进;2021年 胡拯豪;   2020 马晓玲 ;   2019 张苗  

    【全国宝钢奖学金】

     2018年  张苗  优秀学生

    【五四青年奖】

      2018年 张苗

    【知行学金

      2022年 赵子进; 2021年 高进华; 2020年 胡拯豪;  2019年 马晓玲 ;  2018 年 张苗; 2017年  安桥石 

     瑾奖学金

       2018 年  马晓玲    2017 年  张苗、王文斌    2015 年 王健   

     汉能李嘉宁奖学金

        2015 年 健 

    硕士研究生国家奖】

       2022年,赵兴超;2021 年, 王雪琳; 2015 年  王文斌;   2014 年  祝熙翔 ;   2013 年  安桥石,李凌亮 ;     2012 年  王健、王梓轩、刘杨

     博士研究生国家奖】

      2022年,杨凯旋、徐春雨; 2021年, 赵子进,徐春雨; 2020年 高进华; 2019年   马晓玲、苗建利、胡拯豪 ;    2018 年   马晓玲、苗建利 ;     2017 年  王文斌、 张苗 ;     2016 年   安桥石 ;  2015 年  李凌亮、孙倩倩 ;    2014 年  王健

 历年获得校级优秀硕士学位论文的研究生:

      王剑晓(2019)、祝熙翔(2015)、王梓轩(2014)、 许晓伟(2012)、卓祖亮 (2011)

 历年获得校级优秀博士学位论文的研究生:

      胡拯豪 (2022)、高进华 (2021)、马晓玲 (2020)、张苗 (2019)、安桥石(2017)

2022 年 获北京交通大学 詹天佑专项奖

2021 年获北京交通大学 校级教学成果一等奖;

2013 年 获北京交通大学青年教师智瑾奖;

2013年 获北京交通大学教书育人先进个人;

2021年、2016年、2013年、2010年 评为优秀主讲教授;

2012 年 获北京交通大学教学成果, 二等奖;

2012 年 指导本科生参加北京市大学生物理竞赛,获北京市二等奖;

2011 年 开设的专业实验评为校级优秀实验项目;

2011 年 指导本科生参加北京市大学生物理竞赛,获北京市二等奖;

2011 年 指导本科生参加“挑战杯”获校一等奖;

2010 年 入选北京交通大学红果园“双百”人才培养D计划;

2010 年 指导“北京市大学生科研与创新行动计划”项目,获科技创新成果一等奖,授予单位:北京市教育委员会;

2010 年 指导北京市大学生物理竞赛,获北京市 二等奖;

2009 年 第7届青年教工教学基本功大赛,理学院一等奖,学校三等奖;

2009 年 教育部高等学校科学研究优秀成果奖,自然科学类一等奖,第5完成人;

2007 年 第十一届全国发光会议,获“徐叙瑢发光学优秀青年论文奖二等奖”;


社会兼职

   Invited to be the Editorial Board of Scientific Reports (Naure Publishing Group) 

   Invited to be the Editorial Board of The Scientific World Journal as part of the journal's Optics subject area. 【影响因子1.7】    【http://www.tswj.com/editors/optics/

   教育部研究生学位论文函审专家。

    RSC Advances, Nanoscale, New Journal of Chemistry, Journal of Chemistry Materials A, Journal of Chemistry Materials C, Applied Physics Letters, Journal of Applied Physics, Display, Journal of Materials Science: Materials in Electronics,IEEE Quantum Electronics, Applied Surface Science, Material Science and engineering B, ACS Energy & Fuels,Journal of Photonics for Energy,Chinese Physics, Chinese Physics Letters,China Science G,Synthetic Metals,科学通报,物理化学学报,兰州大学学报等期刊的审稿人。 Invited to be the Editorial Board of Invited to be the Editorial Board of