Representative research results(第一单位)
研究论文
综述论文
All research results:
2022
37. Li, M.; Zhang, L.; Chen, C.*; Chen, J.*; Ding, L.*, The Degradation of Perovskite Precursor. Journal of Semiconductors 2022.
36. Shang, X.; Chen, C.*; et al. Zwitterionic Ionic Liquid Synergistically Induces Interfacial Dipole Formation and Traps State Passivation for High-Performance Perovskite Solar Cells. Journal of Colloid & Interface Science 2022, Accepted
35. Zhang, Boxue; Gao, Deyu; Li, Mengjia; Shang, Xueni ; Li, Ying; Chen, Cong*; Pauporte, Thierry*, "Heterojunction in-situ constructed by a novel amino acid-based organic spacer for efficient and stable perovskite solar cells, 2022, ACS Applied Materials & Interfaces, Accepted
34. Li, M.; Li, H.; Zhuang, Q.; He, D.; Liu, B.; Chen, C.*; Zhang, B.; Pauporté, T.; Zang, Z.; Chen, J., Stabilizing Perovskite Precursor by Synergy of Functional Groups for NiOx-Based Inverted Solar Cells with 23.5% Efficiency. Angewandte Chemie International Edition 2022, n/a (n/a).
33. Wang, C.; Zhang, B.; Ma, X.; Yang, L.; Shang, X.; Chen, C.*, Organic Ionic Plastic Crystals: A Promising Additive for Achieving Efficient and Stable Cspbi2br Perovskite Solar Cells. Journal of Physics and Chemistry of Solids 2022, 110798.
32. 赵雪帆, 朱云飞, 王成麟, 张左林, 朱云飞, 宋宏伟, 陈聪;非铅钙钛矿光伏材料与器件的研究进展;发光学报,2022,43(06):817-832.
31. 王成麟, 张左林, 朱云飞, 赵雪帆, 宋宏伟, 陈聪;钙钛矿太阳能电池中缺陷及其钝化策略研究进展;物理学报,2022,71(16):301-317.
30. Bai, L.; Yao, F.; Wang, R.; Liu, B.; He, D.; Zhou, Q.; Wang, W.; Xu, C.; Hu, X.; Chen, S.; Song, Q.; Zhou, T.*; Lee, D.; Zhao, P.; Chen, C.*; Yang, H.; Lin, Q.; Zang, Z.*; Chen, J.*, Ion migration suppression mechanism via 4-sulfobenzoic acid monopotassium salt for 22.7% stable perovskite solar cells. Science China Materials 2022.
29. Gao, D.; Yang, L.; Ma, X.; Shang, X.; Wang, C.; Li, M.; Zhuang, X.; Zhang, B.; Song, H.; Chen, J.; Chen, C*. Passivating buried interface with multifunctional novel ionic liquid containing simultaneously fluorinated anion and cation yielding stable perovskite solar cells over 23% efficiency. Journal of Energy Chemistry 2022, 69, 659-666.
2021
28. Zhu, L.; Zhang, X.; Li, M.; Shang, X.; Lei, K.; Zhang, B.; Chen, C.*; Zheng, S.; Song, H.*; Chen, J.*, Trap State Passivation by Rational Ligand Molecule Engineering toward Efficient and Stable Perovskite Solar Cells Exceeding 23% Efficiency. Advanced Energy Materials 2021, 11 (20), 2100529.
27. Yang, L.; Ma, X.; Shang, X.; Gao, D.; Wang, C.; Li, M.; Chen, C.*; Zhang, B.; Xu, S.; Zheng, S.; Song, H.*, Zwitterionic Ionic Liquid Confer Defect Tolerance, High Conductivity, and Hydrophobicity toward Efficient Perovskite Solar Cells Exceeding 22% Efficiency. Solar RRL 2021, 5 (9), 2100352.
26. Su, P.; Bai, L.; Bi, H.; Liu, B.; Chen, S.; Lee, D.; Yang, H.; Chen, C.*; Zang, Z.*; Chen, J.*, Interfacial gradient energy band alignment modulation via ion exchange reaction toward efficient and stable methylammonium-free Dion-Jacobson quasi-2D perovskite solar cells. Journal of Power Sources 2021, 506, 230213.
25. Meng, F.; Shang, X.; Gao, D.; Zhang, W.; Chen, C.*, Functionalizing phenethylammonium by methoxy to achieve low-dimensional interface defects passivation for efficient and stable perovskite solar cells. Nanotechnology 2021, 33 (6), 065201.
24. Ma, X.; Yang, L.; Shang, X.; Li, M.; Gao, D.; Wu, C.; Zheng, S.; Zhang, B.; Chen, J.; Chen, C.;* Song, H., Grain boundary defect passivation by in situ formed wide-bandgap lead sulfate for efficient and stable perovskite solar cells. Chemical Engineering Journal 2021, 426, 130685.
23. Li, M.; Zhu, L.; Zhang, X.; Wang, C.; Gao, D.; Han, J.; Song, H.; Xu, S.; Chen, C.*, Highly efficient and stable perovskite solar cells based on E-beam evaporated SnO2 and rational interface defects passivation. Nano Select 2021, n/a (n/a).
22. Li, M.; Gao, D.; Zhang, B.; Xu, S.; Zhuang, X.; Wang, C.; Yang, L.; Ma, X.; Zheng, S.; Song, H.; Chen, J.*; Chen, C.,* Multifunctional Reductive Molecular Modulator toward Efficient and Stable Perovskite Solar Cells. Solar RRL 2021, 5 (10), 2100320.
21. Gao, D.; Li, M.; Yang, L.; Wang, C.; Shang, X.; Ma, X.; Wu, C.; Zhang, B.; Song, H*.; Chen, C.,* 3-Ammonium Propionic Acid: A Cation Tailoring Crystal Structure of Hybrid Perovskite for Improving Photovoltaic Performance. ACS Applied Energy Materials 2021, 4 (12), 14662–14670.
20. Chen, C.; Zheng, S.;* Song, H.*, Photon management to reduce energy loss in perovskite solar cells. Chemical Society Reviews 2021, 50 (12), 7250-7329.
2020
19. Zhu, L.; Shang, X.; Lei, K.; Wu, C.; Zheng, S.; Chen, C.;* Song, H., Doping in Semiconductor Oxides-Based Electron Transport Materials for Perovskite Solar Cells Application. Solar RRL 2020, 5 (3), 2000605.
18. Xiaohui, M.; Liqun, Y.; Shijian, Z.; Qilin, D.; Cong, C.;* Hongwei, S., All-Inorganic Perovskite Solar Cells: Status and Future. Progress in Chemistry 2020, 32 (10), 1608.
17. Ma, X.; Yang, L.; Lei, K.; Zheng, S.; Chen, C.;* Song, H., Doping in inorganic perovskite for photovoltaic application. Nano Energy 2020, 78, 105354.
16. Chen, C.; * Zhuang, X.; Bi, W.; Wu, Y.; Gao, Y.; Pan, G.; Liu, D.; Dai, Q.; Song, H., Chemical inhibition of reversible decomposition for efficient and super-stable perovskite solar cells. Nano Energy 2020, 68 (68), 104315.
15. 马晓辉; 杨立群; 郑士建; 戴其林; 陈聪; 宋宏伟. 全无机钙钛矿太阳电池:现状与未来. 化学进展 2020, 32, 1608-1632.
14. 陈聪; 商雪妮; 朱立华; 张炜; 孟凡斌; 郑士建. 二维Ruddlesden-Popper相钙钛矿太阳能电池研究进展. 河北工业大学学报 2020, 49, 26-34.
13. 杨立群; 马晓辉; 郑士建; 陈聪; 戴其林; 宋宏伟. 柔性钙钛矿太阳能电池中电极材料和电荷传输材料的研究进展. 发光学报 2020, 41, 1175-1194.
12. 朱立华; 商雪妮; 雷凯翔; 郑士建; 戴其林; 陈聪; 宋宏伟. 应用于钙钛矿太阳能电池中金属氧化物电子传输材料的研究进展. 发光学报 2020, 41, 481-497.
2019年
11. Song, Z.; Bi, W.; Zhuang, X.; Wu, Y.; Zhang, B.; Chen, X.; Chen, C.; * Dai, Q.; Song, H., Low-Temperature Electron Beam Deposition of Zn-SnOx for Stable and Flexible Perovskite Solar Cells. Solar RRL 2019, 4 (2), 1900266.
10. Chen, C.;* Wu, Y.; Liu, L.; Gao, Y.; Chen, X.; Bi, W.; Chen, X.; Liu, D.; Dai, Q.; Song, H., Interfacial Engineering and Photon Downshifting of CsPbBr3 Nanocrystals for Efficient, Stable, and Colorful Vapor Phase Perovskite Solar Cells. Advanced Science 2019, 6 (11), 1802046.
9. Bi, W.; Wu, Y.; Zhang, B.; Jin, J.; Li, H.; Liu, L.; Xu, L.; Dai, Q.; Chen, C.;* Song, H., Enhancing Photostability of Perovskite Solar Cells by Eu(TTA)2(Phen)MAA Interfacial Modification. ACS Applied Materials & Interfaces 2019, 11 (12), 11481-11487.
2018
8. Li, H.; Chen, C.;* Jin, J.; Bi, W.; Zhang, B.; Chen, X.; Xu, L.; Liu, D.; Dai, Q.; Song, H., Near-infrared and ultraviolet to visible photon conversion for full spectrum response perovskite solar cells. Nano Energy 2018, 50, 699-709.
7. Chen, C.; Liu, D.; Zhang, B.; Bi, W.; Li, H.; Jin, J.; Chen, X.; Xu, L.; Song, H.; Dai, Q., Carrier Interfacial Engineering by Bismuth Modification for Efficient and Thermoresistant Perovskite Solar Cells. Adv. Energy. Mater. 2018, 8 (20), 201703659.
6. Chen, C.; Liu, D.; Wu, Y.; Bi, W.; Sun, X.; Chen, X.; Liu, W.; Xu, L.; Song, H.; Dai, Q., Dual interfacial modifications by conjugated small-molecules and lanthanides doping for full functional perovskite solar cells. Nano Energy 2018, 53, 849-862.
2017
5. Chen, C.; Li, H.; Jin, J.; Cheng, Y.; Liu, D.; Song, H.; Dai, Q., Highly enhanced long time stability of perovskite solar cells by involving a hydrophobic hole modification layer. Nano Energy 2017, 32, 165-173.
4. Chen, C.; Li, H.; Jin, J.; Chen, X.; Cheng, Y.; Zheng, Y.; Liu, D.; Xu, L.; Song, H.; Dai, Q., Long-Lasting Nanophosphors Applied to UV-Resistant and Energy Storage Perovskite Solar Cells. Adv. Energy Mater. 2017, 7 (20), 1700758.
2016
3. Chen, C.; Cheng, Y.; Jin, J.; Dai, Q.; Song, H., CdS/CdSe quantum dots and ZnPc dye co-sensitized solar cells with Au nanoparticles/graphene oxide as efficient modified layer. Journal of Colloid and Interface Science 2016, 480, 49-56.
2. Chen, C.; Dai, Q. L.; Miao, C.; Xu, L.; Song, H. W., Strontium titanate nanoparticles as the photoanode for CdS quantum dot sensitized solar cells. RSC Adv. 2015, 5 (7), 4844-4852.
1. Chen, C.; Cheng, Y.; Dai, Q.; Song, H., Radio Frequency Magnetron Sputtering Deposition of TiO2 Thin Films and Their Perovskite Solar Cell Applications. Scientific reports 2015, 5, 17684.