课题组代表性论文
1. Wang J., Gong S., Chen Z., Yang S. Vacuum-Assisted Drying Process for Screen-Printable Carbon Electrodes of Perovskite Solar Cells with Enhanced Performance Based on Cuprous Thiocyanate as a Hole Transporting Layer. ACS Applied Materials & Interfaces. 2021, 13(19):22684–93.
2. Lei L., Li M., Grant D. M., Yang S., Yu Y., Watts J. A., Amabilino D. B. Morphology and Defect Control of Metal Halide Perovskite Films for High-Performance Optoelectronics. Chemistry of Materials. 2020, 32(14):5958-72.
3. Gong S., Li H., Chen Z., Shou C., Huang M., Yang S. CsPbI2Br Perovskite Solar Cells Based on Carbon Black-Containing Counter Electrodes. ACS Applied Materials & Interfaces. 2020, 12(31):34882-9.
4. Ni X., Lei L., Yu Y., Xie J., Li M., Yang S., Wang M., Liu J., Zhang H., Ye B. Effect of Br content on phase stability and performance of H2N=CHNH2Pb (I1− xBrx)3 perovskite thin films. Nanotechnology. 2019, 30(16):165402.
5. Li H., Yang S., Gong S., Wu J., Pan S., Chen Z., Zhao Q., Shou C., Shen Q. Perovskite films with a sacrificial cation for solar cells with enhanced stability based on carbon electrodes. Journal of Alloys and Compounds. 2019, 797:811-9.
6. Lei L., Yang S., Yu Y., Li M., Xie J., Bao S., Jin P., Huang A. Long-term stable perovskite solar cells with room temperature processed metal oxide carrier transporters. Journal of Materials Chemistry A. 2019, 7(37):21085-95.
7. Huang M., Zhao Q., Chen Z., Shou C., Shen Q., Yang S. A UV-stable Perovskite Solar Cell Based on Mo-doped TiO2 Interlayer. Chemistry Letters. 2019, 48(7):700-3.
8. Zhang S., Shen L., Huang M., Yu Y., Lei L., Shao J., Zhao Q., Wu Z., Wang J., Yang S. Cyclic Utilization of Lead in Carbon-Based Perovskite Solar Cells. ACS Sustainable Chemistry & Engineering. 2018, 6(6):7558-64.
9. Lei L., Zhang S., Yang S., Li X., Yu Y., Wei Q., Ni Z., Li M. Influence of hole transport material/metal contact interface on perovskite solar cells. Nanotechnology. 2018, 29(25):255201.
10. Huang A., Lei L., Chen Y., Yu Y., Zhou Y., Liu Y., Yang S., Bao S., Li R., Jin P. Minimizing the energy loss of perovskite solar cells with Cu+ doped NiOx processed at room temperature. Solar Energy Materials and Solar Cells. 2018, 182:128-35.
11. Yu Y., Yang S., Lei L., Liu Y. Nucleation mediated interfacial precipitation for architectural perovskite films with enhanced photovoltaic performance. Nanoscale. 2017, 9(7):2569-78.
12. Yu Y., Yang S., Lei L., Cao Q., Shao J., Zhang S., Liu Y. Ultrasmooth perovskite film via mixed anti-solvent strategy with improved efficiency. ACS applied materials & interfaces. 2017, 9(4):3667-76.
13. Yu Y., Lei L., Yang S., Xie J., Shao J., Cao Q., Zhang S., Ni X., Ye B., Liu Y. Novel perovskite solar cell architecture featuring efficient light capture and ultrafast carrier extraction. ACS applied materials & interfaces. 2017, 9(28):23624-34.
14. Shao J., Yang S., Liu Y. Efficient bulk heterojunction CH3NH3PbI3–TiO2 solar cells with TiO2 nanoparticles at grain boundaries of perovskite by multi-cycle-coating strategy. ACS applied materials & interfaces. 2017, 9(19):16202-14.
15. Chen S., Yang S., Sun H., Zhang L., Peng J., Liang Z., Wang Z.-S. Enhanced interfacial electron transfer of inverted perovskite solar cells by introduction of CoSe into the electron-transporting-layer. Journal of Power Sources. 2017, 353:123-30.
16. Shao J., Yang S., Lei L., Cao Q., Yu Y., Liu Y. Pore size dependent hysteresis elimination in perovskite solar cells based on highly porous TiO2 films with widely tunable pores of 15–34 nm. Chemistry of Materials. 2016, 28(19):7134-44.
17. Cao Q., Yang S., Gao Q., Lei L., Yu Y., Shao J., Liu Y. Fast and controllable crystallization of perovskite films by microwave irradiation process. ACS applied materials & interfaces. 2016, 8(12):7854-61.
18. Xie J., Liu Y., Liu J., Lei L., Gao Q., Li J., Yang S. Study on the correlations between the structure and photoelectric properties of CH3NH3PbI3 perovskite light-harvesting material. Journal of Power Sources. 2015, 285:349-53.
19. Chen S., Lei L., Yang S., Liu Y., Wang Z.-S. Characterization of perovskite obtained from two-step deposition on mesoporous titania. ACS applied materials & interfaces. 2015, 7(46):25770-6.
20. Gu Z.-Y., Gao X.-D., Li X.-M., Wu Y.-Q., Huang Y.-D., Yang S.-W., Liu Y. Hierarchically structured nanocrystalline photoanode: Self-assembled bi-functional TiO2 towards enhanced photovoltaic performance. Nano Energy. 2014, 8:247-54.
21. Shao F., Sun J., Gao L., Yang S., Luo J. Forest-like TiO2 hierarchical structures for efficient dye-sensitized solar cells. Journal of Materials Chemistry. 2012, 22(14):6824-30.
22. Shao F., Sun J., Gao L., Luo J., Liu Y., Yang S. High Efficiency Semiconductor‐Liquid Junction Solar Cells based on Cu/Cu2O. Advanced Functional Materials. 2012, 22(18):3907-13.
23. Shao F., Sun J., Gao L., Yang S., Luo J. Growth of various TiO2 nanostructures for dye-sensitized solar cells. The Journal of Physical Chemistry C. 2011, 115(5):1819-23.
24. Shao F., Sun J., Gao L., Yang S., Luo J. Template-free synthesis of hierarchical TiO2 structures and their application in dye-sensitized solar cells. ACS applied materials & interfaces. 2011, 3(6):2148-53.
25. He X., Gao L., Yang S., Sun J. Growth–regime–controlled synthesis of CdS–Bi2S3 and Bi2S3 nanocrystals during the dissolution–recrystallization processes. CrystEngComm. 2010, 12(11):3413-8.
26. Liang X., Gao L., Yang S., Sun J. Facile synthesis and shape evolution of single‐crystal cuprous oxide. Advanced Materials. 2009, 21(20):2068-71.
27. Yang S., Gao L. Photocatalytic activity of nitrogen doped rutile TiO2 nanoparticles under visible light irradiation. Materials Research Bulletin. 2008, 43(7):1872-6.
28. Peng C., Gao L., Yang S., Sun J. A general precipitation strategy for large-scale synthesis of molybdate nanostructures. Chemical communications. 2008(43):5601-3.
29. Peng C., Gao L., Yang S. Synthesis and magnetic properties of Co–Sn–O nanorings. Chemical communications. 2007(42):4372-4.
30. Chen M., Gao L., Yang S., Sun J. Fabrication of well-defined water-soluble core/shell heteronanostructures through the SiO2 spacer. Chemical communications. 2007(12):1272-4.
31. Yang S., Gao L. Synthesis and Characterization of Porous Single‐Crystalline Titanium Dioxide Nanorods. Journal of the American Ceramic Society. 2006, 89(2):720-3.
32. Yang S., Gao L. Controlled synthesis and self-assembly of CeO2 nanocubes. Journal of the American Chemical Society. 2006, 128(29):9330-1.
33. Yang S., Gao L. Fabrication and shape-evolution of nanostructured TiO2 via a sol–solvothermal process based on benzene–water interfaces. Materials chemistry and physics. 2006, 99(2-3):437-40.
34. Yang S.-W., Gao L. Simple and effective preparation of N-doped TiO2 nanocrystallites with visible-light activities. Journal of Inorganic Materials. 2005, 20(4):785-8.
35. Yang S., Gao L. Preparation of titanium dioxide nanocrystallite with high photocatalytic activities. Journal of the American Ceramic Society. 2005, 88(4):968-70.
36. Yang S., Gao L. Low-temperature synthesis of crystalline TiO2 nanorods: mass production assisted by surfactant. Chemistry letters. 2005, 34(7):964-5.
37. Yang S., Gao L. New Method to Prepare Nitrogen‐Doped Titanium Dioxide and Its Photocatalytic Activities Irradiated by Visible Light. Journal of the American Ceramic Society. 2004, 87(9):1803-5.
课题组主要授权专利
1. 杨松旺、 解俊杰、 高潜潜、 雷磊、 曹启鹏、 刘岩,“有机无机杂化钙钛矿薄膜以及钙钛矿太阳能电池的制备方法”,发明专利,ZL201510821634.8
2. 杨松旺、曹启鹏、高潜潜、刘岩,“有机无机杂化钙钛矿薄膜以及太阳能电池的制备方法”,发明专利,ZL201511026606.3
3. 杨松旺,“多孔钙钛矿薄膜、碳浆料与基于碳电极的太阳能电池”,发明专利,ZL201611264266.2
4. 杨松旺、于宇、刘岩,“高性能钙钛矿薄膜及其制备方法和太阳能电池”,发明专利,ZL201611264260.5
5. 杨松旺、邵君、刘岩,“体异质结钙钛矿薄膜及其制备方法和太阳能电池”,发明专利,ZL201710060215.6
6. 杨松旺、陈宗琦、李嘉庆,“一种钙钛矿太阳能电池用碳浆料及电极”,发明专利,ZL201810704023.9
7. 杨松旺、陈宗琦、邵君、赵庆宝,“一种基于钙钛矿太阳能电池的光伏组件及其封装方法”,发明专利,ZL201810703852.5
8. 杨松旺、邵君、刘岩,“金属氧化物浆料、孔径可控的金属氧化物薄膜及其制备方法和应用”,发明专利,ZL201810589013.5
9. 杨松旺、邵君,“一种可丝网印刷的空穴阻挡层浆料及其制备方法和应用”,发明专利,ZL 201810588955.1
10. 杨松旺、黄绵吉、陈宗琦、邵君、赵庆宝、寿春晖、沈曲、邬荣敏、洪凌、刘寒梅、褚晓虹,“一种低温可丝网印刷碳浆料及高导电性碳电极”,发明专利,ZL201810704061.4
11. 杨松旺、张博怀、邵君、陈宗琦、赵庆宝、寿春晖、沈曲、邬荣敏、丁莞尔、蒋新伟、沈敏强,“一种快速提升基于有机空穴传输层钙钛矿太阳能电池性能的工艺”,发明专利,ZL201810704055.9
12. 杨松旺、黄绵吉、邵君、赵庆宝、陈宗琦、寿春晖、沈曲、邬荣敏、 洪凌、郑光磊、冯立波,“一种基于金属离子掺杂二氧化钛间隔层的光稳定钙钛矿太阳电池及其制备方法”,发明专利,ZL201810716083.2
13. 杨松旺、张生、黄绵吉、赵庆宝、陈宗琦、邵君、 寿春晖、 沈曲、 邬荣敏、丁莞尔、 胡达清、刘寒梅,“一种对废旧钙钛矿太阳能电池循环利用的方法”,发明专利,ZL201810703024.1
14. 陈宗琦、 杨松旺、 赵庆宝、 邵君、寿春晖、 沈曲、 邬荣敏、 丁莞尔、刘寒梅、陈文华,“一种钙钛矿太阳能电池中钙钛矿吸光层的涂布装置”,实用新型,ZL201821028434.2
15. 陈宗琦、杨松旺、 邵君、 赵庆宝、 寿春晖、 沈曲、邬荣敏、丁莞尔、戴豪波、邱鹤,“一种新型钙钛矿太阳能电池模块”,实用新型,ZL201821027058.5
16. 陈薪羽、杨松旺、 洪凌、陈宗琦、沈曲、 邬荣敏、 彭浩、寿春晖、 俞丹馨、季志江、徐勇林,“一种封装的钙钛矿太阳能电池”,实用新型,ZL202020407110
17. 陈宗琦、杨松旺、邬荣敏、陈薪羽、丁莞尔、洪凌、关键、寿春晖、余志胜、曹剑峰、饶研子,“大面积钙钛矿太阳能电池组件用薄膜的涂布装置 ”,实用新型,ZL202020407176.X
18. 陈薪羽、杨松旺、陈宗琦、沈曲、丁莞尔、洪凌、邬荣敏、彭浩、王美树、陈春峰、郑志坤,“钙钛矿太阳能电池组件 ”,实用新型,ZL202020408511.8
19. 陈宗琦、杨松旺、金胜利、陈薪羽、黄绵吉、华晓宇、关键、彭浩、褚晓虹、林王坚、张力,“封装的大面积钙钛矿太阳能电池 ”,实用新型,ZL202020407299.3
20. 寿春晖、邬荣敏、沈曲、洪凌、陈宗琦、邵君、赵庆宝、杨松旺、蒋新伟、孙浩,“一种钙钛矿太阳能电池中钙钛矿吸光层的涂布装置”,实用新型,ZL201821026196.1
21. 寿春晖、沈曲、邬荣敏、洪凌、陈宗琦、赵庆宝、邵君、杨松旺、胡达清、蒋新伟,“一种钙钛矿太阳能电池模块”,实用新型,ZL201821028490.6
22. 寿春晖、解剑波、沈曲、李清毅、杨松旺、陈宗琦、胡达清、廖达琛、葛春亮,“钙钛矿太阳能电池封装结构”,实用新型,ZL201921055267.5
23. 陈宗琦、杨松旺、邵君、赵庆宝、寿春晖、沈曲、邬荣敏、洪凌、戴豪波、严夙爽,“一种钙钛矿太阳能电池中钙钛矿吸光层的涂布装置”,实用新型,ZL201821028277.5
24. 胡达清、郑光磊、葛春亮、春晖、陈宗琦、杨松旺、邬荣敏、丁莞尔,“一种钙钛矿太阳能电池”,实用新型,ZL201921218316.2
25. 杨松旺、陈宗琦、邵君、赵庆宝,“一种钙钛矿太阳能电池组件”,实用新型,ZL201821028278.X
26. 杨松旺、邵君、赵庆宝、黄绵吉,“一种钙钛矿太阳能电池模块”,实用新型,ZL201821027923.6
27. 杨松旺、李嘉庆、邵君、赵庆宝,“一种钙钛矿太阳能电池模块”,实用新型,ZL201821027961.1
28. 沈沪江、刘岩、张焘、袁慧慧、杨松旺、李勇明,“四边热压机”,实用新型,ZL201620663661.7
29. 张焘、沈沪江、刘岩、袁慧慧、杨松旺、李勇明,“回字形冲切机”,实用新型,ZL201620663410.9
30. 张焘、沈沪江、袁慧慧、杨松旺、刘岩、李勇明,“太阳能电池板合装模块自动装配生产线”,实用新型,ZL201620662919.1
31. 袁慧慧、沈沪江,张焘、刘岩、杨松旺、李勇明,“注液封口机”,实用新型,ZL201620663121.9
32. 何云龙、沈沪江、袁慧慧、杨松旺、李勇明、刘岩,“一种全自动的染料敏化太阳能电池染料敏化设备”,发明专利,ZL201511011645.6
33. 沈沪江、陈薪羽、徐权、刘岩,“染料敏化太阳能电池路灯”,实用新型,ZL201521120403.6
34. 沈沪江、陈薪羽、徐权、刘岩,“太阳能信箱”,实用新型,ZL201521120401.7
35. 解俊杰、沈沪江、袁慧慧、杨松旺、李勇明、刘岩,“一种全自动表面处理机”,发明专利,ZL201511011644.1
36. 沈沪江、刘岩、陈薪羽、熊长军、杨星天、杨松旺、李勇明,“带有太阳能电池的桌面摆件”,实用新型,ZL201420860667.4
37. 熊长军、杨星天、陈薪羽、杨松旺、沈沪江、李勇明、刘岩,“一种染料敏化太阳能电池组件”,实用新型,ZL201420873147.7
38. 陈宗琦,杨松旺,沈沪江,李勇明,刘岩,“染料敏化太阳能电池热熔贴合封装工艺”,发明专利,ZL201410853532.X
39. 李嘉庆,杨松旺,李勇明,刘岩,“一种染料敏化太阳能电池用对电极的制备方法”,发明专利,ZL201410804999.5
40. 詹文海,赵庆宝,杨松旺,李勇明,刘岩,“利用反萃取提纯钌络合物粗产品的方法”,发明专利,ZL201410802533.1
41. 杨松旺、何云龙、胡乔舒、李于利、沈沪江、李勇明、刘岩,“一种提高回收染料光电性能的方法”,发明专利,ZL201310750731.3
42. 何云龙、杨松旺、胡乔舒、李于利、沈沪江、李勇明、刘岩,“一种提高染料敏化太阳能电池光电转换效率的方法”,发明专利,ZL201310751824.8
43. 袁慧慧、杨松旺、沈沪江、李勇明、刘岩,“一锅法制备三维多级微纳结构二氧化钛浆料的方法”,发明专利,ZL201310746743.9
44. 詹文海、李勇明、杨松旺、赵庆宝、沈沪江、刘岩,“对己硫基苯甲醛的制备方法”,发明专利,ZL201310746735.4
45. 赵庆宝、李勇明、杨松旺、詹文海、沈沪江、刘岩,“一种用反相填料吸附纯化钌络合物的方法”,发明专利,ZL201310746612.0
46. 孙晓玉、李勇明、杨松旺、李于利、胡乔舒、沈沪江、刘岩,“快速烧结大面积染料敏化太阳能电池光阳极的方法”,发明专利,ZL201310746589.5
47. 杨松旺、许刚刚、邵君、沈沪江、李勇明、刘岩,“纳米晶二氧化钛聚合球形颗粒以及二氧化钛薄膜光阳极的制备方法”,发明专利,ZL201310746173.3
48. 詹文海、杨松旺、李勇明、李于利、胡乔舒、沈沪江、刘岩,“便携式电子设备的保护套”,发明专利,ZL201310740425.1
49. 邵君、杨松旺、沈沪江、李勇明、刘岩,“一种形貌可控的染料敏化太阳能电池光阳极的制备方法”,发明专利,ZL201310746341.9
50. 张焘、詹文海、杨松旺、沈沪江、李勇明、刘岩,“钌络合物的反向重结晶方法”,发明专利,ZL201310746160.6
51. 李勇明、詹文海、杨松旺、刘岩,“联吡啶钌类络合物的合成方法”,发明专利,ZL201210586089.5
52. 袁慧慧、杨松旺、李勇明、刘岩,“改性二氧化钛、其制备方法和用其形成的太阳能电池”,发明专利,ZL201210586288.6
53. 詹文海、杨松旺、李勇明、刘岩,“利用重结晶法提纯钌络合物粗产品的方法”,发明专利,ZL201210580732.3
54. 张焘、詹文海、杨松旺、李勇明、刘岩,“钌络合物反应液的后处理方法及获得的钌络合物粗产品”,发明专利,ZL201210580721.5
55. 邵君、杨松旺、李勇明、刘岩,“二氧化钛薄膜光阳极及其制备方法”,发明专利,ZL201210580658.5
56. 詹文海、杨松旺、李勇明、刘岩,“利用一锅法合成钌络合物的方法”,发明专利,ZL201210580432.5
57. 李勇明、熊长军、杨松旺、沈沪江、刘岩,“染料敏化太阳能电池对电极用碳浆料”,发明专利,ZL201210580359.1
58. 詹文海、杨松旺、李勇明、刘岩,“利用重结晶法提纯钌络合物粗产物的方法”,发明专利,ZL201210580325.2
59. 袁慧慧、杨松旺、李勇明、刘岩,“一种用二氧化钛制备染料敏化太阳能电池光阳极的方法”,发明专利,ZL201210577992.5
60. 李勇明、高濂、杨松旺,“染料敏化光电转换及其制造方法,以及金属氧化物浆料”,发明专利,ZL201110305717.3
61. 赵庆宝、詹文海、杨松旺、李勇明、刘岩,“高纯度联吡啶钌络合物的合成方法”,发明专利,ZL201410856826.8
62. 杨星天、杨松旺、李勇明、刘岩,“染料敏化太阳能电池制造过程中染料溶液的重复使用与再生方法”,发明专利,ZL201210586771.4
63. 赵庆宝、詹文海、杨松旺、李勇明、刘岩,“钌络合物的提纯方法”,发明专利,ZL201210585668.8
64. 邵君、杨松旺、李勇明、刘岩,“染料敏化太阳能电池光阳极用丝网印刷浆料的快速制备方法”,发明专利,ZL201210585545.4
65. 何云龙、解俊杰、沈沪江、王炜、袁慧慧、陈薪羽,“一种以染料敏化太阳能电池为光控开关的调光系统”,实用新型,ZL201920033155.3