代表性论文:
40. Y. Hu, Z. Shi, X. Ren, Y. Cao, G. Xiao, D. Huang* and F. Jiang*, Boosting solar water splitting performance of Cu3BiS3-based photocathode via Ag doping strategy, Advanced Energy Materials, 2024, (IF=27.8) DOI: 10.1002/aenm.202402031
39. Y. Cao Z. Yu, S. Huang, X. Ren, Y. Liang, Z. Shi, Z. Li and F. Jiang*, Efficient BiVO4 Photoanode with an Excellent Hole Transport Layer of CuSCN for Solar Water Oxidation,Mater. Chem. Front., 2024, 8, 2374. (IF=7.0)
38. Y. Liu, Z. Zhang, K. Wang, X. Tan, J. Chen, X. Ren and F. Jiang*, Efficient BiVO4 Photoanode with an Excellent Hole Transport Layer of CuSCN for Solar Water Oxidation,Advanced Energy Materials, 2024, (IF=27.8) DOI: 10.1002/aenm.202304223
37. G. Xiao, X. Ren, Y. Hu, Y. Cao, Z. Li, Z. Shi, and F. Jiang* , Spin-Coated CZTS Film with a Gradient Cu Deffcient
Interfacial Layer for Solar Hydrogen Evolution, ACS Energy Letters, 2024, 9: 715-726. (IF=22.0)
https://doi.org/10.1021/acsenergylett.4c00013
36. H. Ni, Y. Fang, Y. Hu, G. Xiao, X. Wu, F. Jiang*, Investigation of the Solar Hydrogen Sensitivity of GeSe Thin Film Photoelectrode with Photoelectrochemical Environment. ACS Applied Materials & Interfaces, 2023, 15(40): 46861-46871, https://doi.org/10.1021/acsami.3c09146 (IF=9.5)
35. Y. Fang, Y. Li, H. Ni, X. Wu, Y. Hu, G. Xiao, M. Zhang, W. Wei*, F. Jiang*, GeSe Photovoltaic Thin-Film Electrode for NIR Laser-Driven Hydrogen Evolution. ACS Applied Energy Materials, 2023, 6(14): 7643-7649, https://doi.org/10.1021/acsaem.3c01107 (IF=6.4)
34. H. Cai, L. Li, H. Ni, G. Xiao, Z. Yue, F. Jiang*, GeSe-based photovoltaic thin film photoelectrode for natural seawater desalination. Separation and Purification Technology, 2023, 318: 124034, https://doi.org/10.1016/j.seppur.2023.124034 (IF=8.6)
33. K. Wang, H. Ni, W. Zhao, X. Wu, Y. Hu, G. Xiao, F. Jiang*, Highly efficient GeSe micro air brick-based thin film standalone solar water splitting photoelectrode with solar light soaking accumulated process,
Energy & Environmental Science, 2023, 16, 1155-1165. https://doi.org/10.1039/D2EE03655J (IF=39.714)
32. H. Cai, W. Zhao, G. Xiao, Y. Hu, X. Wu, H. Ni, S. Ikeda, Y. Ng, J. Tao*, L. Zhao*, F. Jiang*, Process Accumulated 8% Efficient Cu2ZnSnS4-BiVO4 Tandem Cell for Solar Hydrogen Evolution with the Dynamic Balance of Solar Energy Storage and Conversion. Advanced Science, 2022, 2205726 (IF=17.521) https://onlinelibrary.wiley.com/doi/epdf/10.1002/advs.202205726
31. X. Wu, W. Zhao, Y. Hu, G. Xiao, H. Ni, S. Ikeda, Y. Ng, F. Jiang*, Research on the influence of the interfacial properties between a Cu3BiS3 film and an InxCd1-xS buffer layer for photoelectrochemical water splitting.
Advanced Science, 2022, 2204029 (IF=17.521) https://onlinelibrary.wiley.com/doi/full/10.1002/advs.202204029
30. D. Huang, L. Li, K. Wang, Y. Li, K. Feng, F. Jiang*, Wittichenite semiconductor of Cu3BiS3 films for efficient hydrogen evolution from solar driven photoelectrochemical water splitting. Nature Communnications, 2021, 12, 3795, https://doi.org/10.1038/s41467-021-24060-5 (IF=14.919)
Selected as Editor's Highlights of Nature Commun. https://www.nature.com/ncomms/editorshighlights, https://www.nature.com/collections/dmmhtcypsc
29. K. Wang, L. Li, K. Feng, D. Huang, K. Wang, Y. Li, F. Jiang*, Efficient carrier transfer route via the bridge of C60 particle to TiO2 nanoball based coverage layer enables stable and efficient cadmium free GeSe photocathode for solar hydrogen evolution. Applied Catalysis B: Environmental, 2021, 297, 120437 (IF=19.503)
28. L. Li, K. Feng, K. Wang, D. Huang, Y. Li, F. Jiang*,Kesterite Cu2ZnSnS4 thin-film solar watersplitting photovoltaics for solar seawater desalination. Cell Reports Physical Science , 2021, 2, 100468. (Cell 子刊,IF=7.832)
27. D. Huang, K. Feng, K. Wang, L. Li, N. An, S. Ikeda, Y. Kuang, Y. Ng, F. Jiang*, 3.17% efficient Cu2ZnSnS4-BiVO4 integrated tandem cell for standalone overall solar water splitting,
Energy & Environmental Science, 2021, 14,1480-1489 (IF= 38.532)
26. Y. Li, K. Wang, D. Huang, L. Li, J. Tao, N.A.A. Ghany, F. Jiang*, CdxZn1-xS/Sb2Se3 thin film photocathode for efficient solar water splitting, Applied Catalysis B: Environmental, 2021, 286, 119872 (IF=19.503). 点击查看原文
25. C. Wang, K. Wang, D. Huang, L. Li, K. Feng, N.A. Abdel Ghany, L. Zhao, F. Jiang*, A GeSe micro air brick crystal-based film for the sunlight photodegradation of dye-polluted waters, CrystEngComm, 2021, 23,762. (IF=3.5).点击查看原文
24. L. Li, K. Feng, D. Huang, K. Wang, Y. Li, Z. Guo, Y. H. Ng, F. Jiang*, Surface plasmon resonance effect of a Pt-nano-particles-modified TiO2 nanoball overlayer enables a significant enhancement in efficiency to 3.5% for a Cu2ZnSnS4-based thin film photocathode used for solar water splitting, Chem. Eng. J. 2020, 396, 125264. (IF=13.273)
23. K. Wang, D. Huang, L. Li, K. Feng, T. Harada, S. Ikeda, J. Li, F. Jiang*, Three-dimentional GeSe microstructured air brick photocathode for advanced solar water splitting, Solar RRL, 2020, 1900559 (IF=8.582) Cover
22. K. Feng, D. Huang, L. Li, K. Wang, J. Li, T. Harada, S. Ikeda, F. Jiang*, MoSx-CdS/Cu2ZnSnS4-based thin film photocathode for solar hydrogen evolution from water, Applied Catalysis B: Environmental, 2020, 268, 118438 (IF=19.503)
21. K. Feng, C. Wang, D. Huang, L. Li, K. Wang, Y. Li, C. Wang, J. Song, L. Zhao, W. Wei*, F. Jiang*, Near-infrared-driven water splitting for hydrogen evolution from Cu2ZnSnS4-based photocathode by the application of upconversion nanoparticles, Sustainable Energy & Fuels, 2020, 4, 2669-2674. (IF=6.367)
20. K. Wang, M. Liu, D. Huang, L. Li, K. Feng, L. Zhao, J. Li, F. Jiang*, Rapid thermal deposited GeSe nanowires as a promising anode material for lithium-ion and sodium-ion batteries. J. Colloid. Interface Sci. 2020, 571, 387-397 (IF= 8.128)
19. K. Wang, D.Huang, L.Yu, K. Feng, L. Li, T. Harada, S. Ikeda, F. Jiang*, Promising GeSe nanosheet based thin film photocathode for efficient and stable solar water splitting, ACS Catalysis, 2019, 9, 3090-3097. (IF=13.084)
18. K. Wang, D. Huang, L. Yu, H. Gu, S. Ikeda, F. Jiang*, Environmentally friendly Cu2ZnSnS4-based photocathode modified with a ZnS protection layer for efficient solar water splitting, J. Colloid. Interface Sci. 2019, 536, 9-16 (IF= 8.128)
17. D. Huang, K. Wang,L. Yu, S. Ikeda, F. Jiang*, Over 1% Efficient Unbiased Stable Solar Water Splitting Based on a Sprayed Cu2ZnSnS4 Photocathode Protected by a HfO2 Photocorrosion-Resistant Film, ACS Energy Letters, 2018, 3, 1875-1881 (IF= 23.101)
16. F. Jiang*, S. Li, C. Ozaki, T. Harada, S. Ikeda, Co-Electrodeposited Cu2ZnSnS4 Thin Film Solar Cell and Cu2ZnSnS4 Solar Cell – BiVO4 Tandem Device for Unbiased Solar Water Splitting, Solar RRL, 2018, 2, 1700205 (IF=8.582)
15. 江丰*,李林涛,冯旷,王康,黄定旺, 化合物半导体Cu2ZnSnS4 太阳电池与人工光合作用制氢,华南师范大学学报,2021, 52,1-9
--------------------------before joining SCNU ------------------------
14. Feng Jiang, Chigusa Ozaki, Gunawan, Takashi Harada, Zeguo Tang, Takashi Minemoto, Yoshitaro Nose, Shigeru Ikeda, Effect of Indium doping on surface optoelectrical properties of Cu2ZnSnS4 photoabsorber and interfacial/photovoltaic performance of cadium free In2S3/Cu2ZnSnS4 heterojunction thin film solar cell. Chem. Mater. 2016, 28,3283-3291 (IF= 10.159)
13. Feng Jiang, Gunawan, Takashi Harada, Yongbo Kuang, Tsutomu Minegishi, Kazunari Domen and Shigeru Ikeda, Pt/In2S3/CdS/Cu2ZnSnS4 thin film as an efficient and stable photocathode for water reduction under sunlight radiation. Journal of the American Chemical Society, 2015,137, 13691-13697 (IF=14.695)
12. Feng Jiang, Shigeru Ikeda, Zeguo Tang, Takashi Minemoto, Wilman Septina, Takashi Harada, Michio Matsumura, Impact of alloying duration of an electrodeposited Cu/Sn/Zn metallic stack on properties of Cu2ZnSnS4 absorbers for thin-film solar cells. Progress in Photovoltaics: Research and Applications, 2015, 23, 1884-1895. (IF=7.778)
11. Feng Jiang, Shigeru Ikeda, Takashi Harada, Michio Matsumura, Pure sulfide Cu2ZnSnS4 thin film solar cells fabricated by preheating an electrodeposited metallic stack. Advanced Energy Materials, 2014, 4(7), 1301381 (IF=24.884)
10. Feng Jiang, Shigeru Ikeda, Takashi Harada, Akiko Ide, Akiko Mochihara, Kenji Yoshino, Michio Matsumura,
Fabrication of an efficient electrodeposited Cu2ZnSnS4 based solar cell with more than 6% conversion efficiency using a sprayed Ga doped ZnO window layer. RSC Advances, 2014, 4, 24351-24355 (IF= 2.936)
9. Feng Jiang, Honglie Shen, Effect of the thickness on the optoelectronic properties of SnS films and photovoltaic performance of novel SnS/i-a-Si/n-a-Si thin film solar cells,Applied Physics A , 2014, 117,2167–2173 (IF=1.604)
8. Feng Jiang, Honglie Shen, Research on the photoresponse current and photosensitive properties of Cu2ZnSnS4 thin film prepared by sulfurization of a sputtered metal precursor, RSC Advances, 2013, 3, 23474 -23481. (IF=2.936)
7. Feng Jiang, Honglie Shen. Fabrication and photovoltaic properties of Cu2ZnSnS4 /i-a-Si/n-a-Si thin film solar cell. Applied Surface Science, 2013, 280, 138-143. (IF=5.155)
6. Feng Jiang, Honglie Shen, Jin Jiao, Formation of photoconductive SnS thin films through reaction of Sn-metal films in sulfur-vapor, ECS Journal of Solid State Science and Technology, 2013, 2, 11, P478-P484. (IF=1.808)
5. Feng Jiang, Honglie Shen, Wei Wang. Optical and electrical properties of Cu2ZnSnS4 film prepared by sulfurization method. Journal of Electronic Materials, 2012, 41, 8, 2204-2209. (IF=1.566)
4. Feng Jiang, Honglie Shen, Wei Wang and Lei Zhang. Preparation of SnS film by sulfurization and SnS/a-Si heterojunction solar cells. Journal of the Electrochemical Society, 2012, 159(3) H235-238. (IF=3.662)
3. Feng Jiang, Honglie Shen, Jiale Jin and Wei Wang. Preparation and Optoelectronic properties of Cu2ZnSnS4 film. Journal of the Electrochemical Society, 2012, 159(6), H565-569. (IF=3.662)
2. Feng Jiang, Honglie Shen, Wei Wang and Lei Zhang, Preparation and properties of Cu2ZnSnS4 absorber and Cu2ZnSnS4/Amorphous silicon thin film solar cell. Applied Physics Express, 2011, 4, 074101. (IF=2.555)
1. Feng Jiang, Honglie Shen, Chao Gao, Bing Liu, Long Lin, and Zhou Shen. Preparation and properties of SnS film grown by two- stage process. Applied Surface Science, 2011, 257, 4901-4905. (IF=5.155)