海傑峰，男，回族，1986年出生于廣西桂林，工學博士。現于太阳成tyc9728能源學工程教研室從事教學和科研工作。

一、教育與工作經曆

2024.10--至今，太阳成tyc9728，教授；

2022.07-2023.07，南京大學，訪問學者（合作導師：陳尚尚--海外優青））；

2019.10-2024.09，太阳成tyc9728，副教授；

2018.10-2021.04，香港科技大學深圳研究院，博士後（導師：顔河--獲得第二屆“科學探索獎”）；

2014.07-2019.09，太阳成tyc9728，講師；

2009.09-2014.06，南京理工大學，化工學院，碩/博士（導師：唐衛華）;

2005.09-2009.06，廣西大學，化學化工學院，學士。

二、教學工作

本科課程：《物理化學（一）B》、《物理化學1》《物理化學2》、《物理化學實驗》、《有機化學B》、《化工設計基礎》等。

主持校級教改項目1項，發表教改論文5篇。指導本科生獲得廣西高校大學生化學化工類學術創新成果大賽三等獎3人次；2024年指導能源化學工程專業本科生獲得第十八屆全國大學生化工設計競賽全國賽二等獎；獲得2023年太阳成tyc9728“學生課外科技創新園丁先進個人”稱号；指導碩士研究生主持2項研究生科研創新項目（宋遠霞、李娜）；2024年指導碩士研究生中國國際大學生創新大賽廣西賽區“銅獎”；2023年指導碩士研究生獲第九屆中國國際“互聯網+”大學生創新創業大賽廣西賽區“銅獎”；指導碩士研究生獲太阳成tyc9728優秀碩士論文1人次（宋遠霞2023屆）。

三、科研工作

研究領域：

有機光電材料及其器件（有機太陽能電池、鈣钛礦太陽能電池、有機發光二極管）

科研項目：

主持廣西自然科學基金（2023GXNSFAA026425；2017GXNSFAA198343；2015GXNSFBA139228）；主持電磁化學功能物質廣西區重點實驗室主任基金（EMFM20221101；EMFM20211118；EMFM20161101）；參與多項國家自然科學基金地區項目（21962005；21563007；51664011），在Advanced Energy Materials, Advanced Functional Materials, Chemical Engineering Journal, Science China Chemistry, Journal of Colloid and Interface Science, Chemical Communications, Materials Chemistry Frontiers等SCI期刊，以第一或者通訊作者身份發表論文三十餘篇。

四、學術報告

7. 含氧硫元素支化側鍊修飾受體材料的設計及其在光電器件中的應用，邀請報告，第二屆新能源與光電技術國際會議，昆明，2025年4月18-20日。

6. 含氧族元素支化側鍊修飾受體光伏材料設計與應用，邀請報告，2024國際新型功能材料與器件會議，成都，2024年12月6-8日。

5. 含氧族元素支化側鍊修飾非富勒烯受體材料的設計及其有機太陽能電池性能研究，邀請報告，2024第三屆全國能源與材料化學高峰論壇，桂林，2024年11月22-24日。

4. 短多支化烷硫基鍊策略協同提高溶解度和結晶度助力高效率鑄态有機太陽能電池，快閃報告，中國化學會第34屆學術年會，廣州，2024年6月15-18日。

3. 含氧族元素支化側鍊工程助力高效有機太陽能電池，牆報，中國化學會第33屆學術年會，青島，2023年6月17-20日。

2. 新型非富勒烯受體有機太陽能電池，口頭報告，2023合成化學高峰論壇（桂林），桂林，2023年5月11-16日。

1. 新型不對稱非富勒烯受體材料應用于有機太陽能電池，口頭報告，第三屆全國太陽能電池材料與器件大會（桂林），桂林，2023年4月28-30日。

四、主要學術成果

入職以後發表論文

37. Q. Wang, Y. Tang, G.Yang, Z. Tao, S. Li, R. Wang, M. Li, R. Geng*, J. Hai*, Feng Lu*. A versatile 980 nm excitable small molecule for short-wave infrared fluorescence imaging guided type-I photodynamic/photothermal therapy. Sensors and Actuators B Chemical 2025, 438, 137807. (SCI一區top, IF = 8)

36. L. Li^#, N. Li^#, J. Hai*, S. Gao, H. Xu, M. Luo, X. Zhou, X. Shi, S. Xu, X. Li, Z. Lu, Y. Pang, M. Li, H. Xia, S. Chen*, X. Song*. The impeded film-formation kinetics with ameliorated carrier trap density to construct efficient as-cast organic solar cells through short multi-branched alkylthio chains strategy. Chemical Engineering Journal 2025, 503: 158263. (SCI一區top, IF = 13.4)

35. J. Cao, X. Yin*, L. Lu, J. Song, L. Hu, Y. Jin, Z. Su, Z. Li, J. Hai*. Improving stability and efficiency of PTAA-based inverted perovskite solar cells through a guest strategy. Materials Chemistry Frontiers 2025, 9(4): 658-665. (SCI二區, IF=6)

34. W. Liang*, S. Zhu, K. Sun, J. Hai, Y. Cui, C. Gao, W. Li, Z. Wu, G. Zhang*, H. Hu*. Achieving 19.72% Efficiency in Ternary Organic Solar Cells through Electrostatic Potential-Driven Morphology Control. Advanced Functional Materials 2024, 35(7): 2415499. (SCI一區top, IF = 18.5)

33.  J. Hai*, Y. Song, L. Li, X. Liu, X. Shi, Z. Huang, G. Qian, Z. Lu, J. Yu, H. Hu*, S. Chen*. High-Efficiency Organic Solar Cells Enabled by Chalcogen Containing Branched Chain Engineering: Balancing Short-Circuit Current and Open-Circuit Voltage, Enhancing Fill Factor. Advanced Functional Materials 2023, 33, 2213429. (SCI一區top, IF = 18.5)

32.  X. Song*, Y. Song, H. Xu, S. Gao, Y. Wang, J. Li, J. Hai*, W. Liu*, W. Zhu*. Solvent-Induced Anti-Aggregation Evolution on Small Molecule Electron-Transporting Layer for Efficient, Scalable, and Robust Organic Solar Cells. Advanced Energy Materials 2023, 13, 2203009. (SCI一區top, IF=24.4)

31.  J. Hai^#*, L. Li^#, Y. Song^#, X. Liu, X. Shi, Z. Wang, X. Chen, Z. Lu, X. Li, Y. Pang, J. Yu*, H. Hu*, S. Chen*. Ending Group Modulation of Asymmetric Non-Fullerene Acceptors Enables Efficient Green Solvent Processed Organic Solar Cells. Chemical Engineering Journal 2023, 462, 142178. (SCI一區top, IF = 13.4)

30.  Z. Zhong, X. Liu, L. Li, Z. Han, Y. He, X. Xu, J. Hai*, R. Zhu, J. Yu*. An asymmetric A-D-π-A type non-fullerene acceptor enables high-detectivity near-infrared organic photodiodes. Science China Chemistry 2023, 66(1), 242-250. (SCI一區top, IF=10.4)

29.  H. Wu^#, X. Yin^#*, L. Lu, J. Song, L. Hu, Y. Jin, Z. Su, J. Hai*, Z. Li*. Cation and anion optimization of ammonium halide for interfacial passivation of inverted perovskite solar cells. Chemical Communications 2023, 59(41): 6183-6186. (SCI二區, IF=4.3)

28.  Y. Song^#, Z. Zhong^#, L. Li, X. Liu, J. Huang, H. Wu, M. Li, Z. Lu, J. Yu, J. Hai*. Fused-Heterocycle Engineering on Asymmetric Non-Fullerene Acceptors Enables Organic Solar Cells Approaching 29 mA/cm² Short-Circuit Current Density. Chemical Engineering Journal 2022, 430, 132830. (SCI一區top, IF = IF = 13.4)

27.  J. Hai^#, H. Wu^#, X. Yin^#*, J. Song, L. Hu, Y. Jin, L. Li, Z. Su, Z. Xu, H. Wang, Z. Li^*. Dopant-Free Hole Transport Materials Based on a Large Conjugated Electron-Deficient Core for Efficient Perovskite Solar Cells. Advanced Functional Materials 2021, 31(51), 2105458. (SCI一區top, IF = 18.5)

26.  J. Hai^#, S. Luo^#, H. Yu^#, H. Chen, Z. Lu, L. Li*, Y. Zou*, H. Yan*. Achieving Ultra-Narrow Bandgap Non-Halogenated Non-Fullerene Acceptors Via Vinylene Π-Bridges for Efficient Organic Solar Cells. Materials Advances 2021, 2(6), 2132-2140. (IF=5.2)

25.  J. Hai^#, W. Zhao^#, S. Luo, H. Yu, H. Chen, Z. Lu, L. Li*, Y. Zou*, H. Yan*. Vinylene Π-Bridge: A Simple Building Block for Ultra-Narrow Bandgap Nonfullerene Acceptors Enable 14.2% Efficiency in Binary Organic Solar Cells. Dyes and Pigments 2021, 188, 109171. (SCI三區，IF = 4.1)

24.  Y. Zhao, H. Chen, C. Zhu, J. Yuan, Y. Li, J. Hai, Y. Hu, L. Jiang, G. Chen, Y. Zou*. Fine-Tuning the Energy Levels and Morphology Via Fluorination and Thermal Annealing Enable High Efficiency Non-Fullerene Organic Solar Cells. Materials Chemistry Frontiers 2020, 4 (11), 3310-3318 (SCI二區)

23.  F. Cai, H. Peng, H. Chen, J. Yuan, J. Hai, T.-K. Lau, J. Wang, Y. Hu, W. Liu, X. Lu, Y. Zou*. An Asymmetric Small Molecule Acceptor for Organic Solar Cells with a Short Circuit Current Density over 24 mA cm⁻². Journal of Materials Chemistry A 2020, 8 (31), 15984-15991 (SCI二區)

22. M. Luo, L. Zhou, J. Yuan, C. Zhu, F. Cai, J. Hai, Y. Zou*. A New Non-Fullerene Acceptor Based on the Heptacyclic Benzotriazole Unit for Efficient Organic Solar Cells. Journal of Energy Chemistry 2020, 42, 169-173 (SCI一區top, IF = 13.599)

21.  Q. Chang, H. Chen, J. Yuan, Y. Hu, J. Hai, W. Liu, F. Cai, J. Hong, X. Xiao, Y. Zou*. Diflurobenzothiadiazole Core-Based Noncovalently Fused Small Molecule Acceptor Exhibiting over 12% Efficiency and High Fill Factor. Journal of Energy Chemistry 2020, 51, 7-13 (SCI一區top, IF = 13.599)

20.  M. Luo, C. Zhao, J. Yuan, J. Hai, F. Cai, Y. Hu, H. Peng, Y. Bai, Z.a. Tan*, Y. Zou*. Semitransparent Solar Cells with over 12% Efficiency Based on a New Low Bandgap Fluorinated Small Molecule Acceptor. Materials Chemistry Frontiers 2019, 3 (11), 2483-2490 (SCI二區)

19.  Y. Liu, P. Geng, J. Wang, Z. Yang, H. Lu*, J. Hai*, Z. Lu, D. Fan, M. Li. In-Situ Ion-Exchange Synthesis Ag₂S Modified SnS₂ Nanosheets toward Highly Photocurrent Response and Photocatalytic Activity. Journal of Colloid and Interface Science 2018, 512, 784-791 (SCI一區top, IF = 9.4)

18.  Z. Lin, G. Wei, L. Li, Z. Lu, J. Hai*, M. Li, W. Tang. Effect of Carbon Hybridization in 9h-Fluorene Unit on the Photovoltaic Properties of Different Fluorene-Based Conjugated Polymers. High Performance Polymers 2018, 30 (6), 677-687 (SCI四區)

17.  L. Li, Z. Lu, J. Yang, M. Li, L. Zhang, J. Hai*, Y. Liu*. Conjugated Copolymers of Triazoloquinoxaline-Alt-Fluorene with Imine Chain Bridge for Photovoltaic Solar Cells. Materials Letters 2016, 175, 223-226 (SCI三區)

博士期間發表論文

16.  J. Hai, G. Shi, J. Yu, E. Zhu, L. Bian, W. Ma*, W. Tang*. Naphthodifuran Alternating Quinoxaline Copolymers with a Bandgap of ∼1.2 eV and Their Photovoltaic Characterization. New Journal of Chemistry 2014, 38 (10), 4816-4822

15.  J. Hai, Y. Li, L. Yin, E. Zhu, L. Bian, W. Yu, J. Zhang, B. Zhao, H. Wu*, W. Tang*. Design and synthesis of triazoloquinoxaline polymers with positioning alkyl or alkoxyl chains for organic photovoltaics cells, Polymer Chemistry 2014, 5(4), 1163-1172

14.  J. Hai, W. Yu, E. Zhu, L. Bian, J. Zhang*, W. Tang*. Synthesis and photovoltaic characterization of thiadiazole based low bandgap polymers, Thin Solid Film 2014, 562, 75-83

13.  J. Hai, B. Zhao, F. Zhang, C.-X. Sheng*, L. Yin, Y. Li, E. Zhu, L. Bian, H. Wu*, W. Tang*. Synthesis and photovoltaic performance of novel thiophenyl-methylene-9H-fluorene based low bandgap polymers, Polymer 2013, 54(18), 4930-4939

12.  J. Hai, E. Zhu, L. Bian, J. Wang, Z. Wang, Y. Li, L. Yin, F. Zhang*, W. Tang*. Synthesis, optical, electrochemical and electroluminescent properties of novel fluorene-alt-bithiophene copolymers with phenylvinyl bridged accepting side chains, European Polymer Journal 2013, 49(11), 3610-3618

11.  J. Hai, B. Zhao, E. Zhu, L. Bian, H. Wu*, W. Tang*. Synthesis and photovoltaic performance of a [1,2,3]triazolo[4,5-g]quinoxaline-based low-bandgap polymer, Macromolecular Chemistry and Physics 2013, 214(21), 2473-2479

10.  海傑峰，尹良敏，唐衛華，基于噻唑并噻唑結構的共轭聚合物太陽能電池材料的合成與表征[OL]，中國科技論文 2014, 9(2), 247-252

9.  J. Yu, G. Ding, J. Hai, E. Zhu, X. Yin, Z. Xu, B. Zhou, F. Zhang*, W. Ma*, W. Tang*. Selenium-Substituted Polymers for Improved Photovoltaic Performance. Physical Chemistry Chemical Physics 2016, 18 (11), 7978-7986.

8.  J. Yu, Q. An, J. Hai, X. Nie, B. Zhou, F. Zhang*, W. Tang*. Thiadiazole Quinoxaline-Based Copolymers with Similar to 1.0 eV Bandgap for Ternary Polymer Solar Cells. Polymer 2015, 79: 12-20.

7.  Q. Sun, F. Zhang*, J. Hai, J. Yu, H. Huang, F. Teng*, W. Tang*. Doping a D-A Structural Polymer Based on Benzodithiophene and Triazoloquinoxaline for Efficiency Improvement of Ternary Solar Cells. Electronic Materials Letters 2015, 11 (2), 236-240.

6.  L. Bian, J. Miao, J. Hai, E. Zhu, J. Yu, G. Ge, H. Wu*, W. Tang*. Benzotrithiophene Polymers with Tuneable Bandgap for Photovoltaic Applications. RSC Advances 2014, 4 (96), 53939-53945.

5.  L. Bian, J. Hai, E. Zhu, J. Yu, Y. Liu, J. Zhou, G. Ge, W. Tang*. A Versatile Strategy to Directly Synthesize 4,8-Functionalized Benzo[1,2-b:4,5-b’] Difurans for Organic Electronics. Journal of Materials Chemistry A 2015, 3 (5), 1920-1924.

4.  E. Zhu, J. Hai, Z. Wang, B. Ni, Y. Jiang, L. Bian, F. Zhang*, W. Tang*. Two-dimensional polyfluorenes bearing thienylenevinylene π-bridge-acceptor side-chains for photovoltaic solar cells, The Journal of Physical Chemistry C 2013, 117(47), 24700-24709.

3.  王琎，海傑峰，張福俊，唐衛華，芴與聯噻吩發光共聚物的合成與發光特性[J]，光學學報 2013, 33(8):0816002. (EI)

2.  俞江升，海傑峰，李陽，唐衛華，基于吡咯并吡咯二酮結構的共轭聚合物合成及其光伏性能的研究[OL]，中國科技論文在線 [2013-10-02]. http://www.paper.edu.cn/ releasepaper/content/201310-12

1.  W. Tang*, J. Hai, Y. Dai, Z. Huang, B. Lu, F. Yuan, J. Tang, F. Zhang*. Recent development of conjugated oligomers for high-efficiency bulk-heterojunction solar cells, Solar Energy Materials and Solar Cells 2010, 94(12), 1963-1979.

五、授權專利

海傑峰，李玲，馮程。一類基于不對稱硒雜稠環共轭分子及其制備方法，國家發明專利，ZL201910140751.6

六、聯系方式

太阳成tyc9728雁山校區太阳成tyc9728, 12206

Email: haijiefeng@glut.edu.cn