研究成果 - 杨熹

发表文章：

[1]    Wu M, Li X, Ying Z*, Chen Y, Wang X, Zhang M, Su S, Guo X, Sun J, Shou C, Yang X*, Ye J*. Reconstruction of the Indium Tin Oxide Surface Enhances the Adsorption of High-Density Self-Assembled Monolayer for Perovskite/Silicon Tandem Solar Cells [J]. Advanced Functional Materials, 2023, 2304708. https://doi.org/10.1002/adfm.202304708.

[2]    Li X, Ying Z*, Zheng J, Wang X, Chen Y, Wu M, Xiao C, Sun J, Shou C, Yang Z, Zeng Y, Yang X*, Ye J*. Surface Reconstruction for Efficient and Stable Monolithic Perovskite/Silicon Tandem Solar Cells with Greatly Suppressed Residual Strain [J]. Advanced Materials, 2023: 2211962. https://doi.org/10.1002/adma.202211962.

[3]    Wang X, Ying Z*, Zheng J, Li X, Zhang Z, Xiao C, Chen Y, Wu M, Yang Z, Sun J, Xu J-R, Sheng J, Zeng Y, Yang X*, Xing G, Ye J*. Long-chain anionic surfactants enabling stable perovskite/silicon tandems with greatly suppressed stress corrosion [J]. Nature Communications, 2023, 14 (1): 2166. https://doi.org/10.1038/s41467-023-37877-z.

[4]    Ying Z#, Yang X#, Zheng J, Sun J, Xiu J, Zhu Y, Wang X, Chen Y, Li X, Sheng J, Shou C, Zeng Y, Pan H, Ye J*, He Z*. BCP:Ag complex functionalized tunneling junction for efficient monolithic perovskite/TOPCon silicon tandem solar cell [J]. Solar RRL, 2022, 6 (12): 2200793. https://doi.org/10.1002/solr.202200793.

[5]    Ying Z, Yang Z, Zheng J, Wei H, Chen L, Xiao C, Sun J, Shou C, Qin G, Sheng J, Zeng Y, Yan B, Yang X*, Ye J*. Monolithic perovskite/black-silicon tandems based on tunnel oxide passivated contacts [J]. Joule, 2022, 6 (11): 2644–2661. https://doi.org/10.1016/j.joule.2022.09.006.

[6]    Chen Y, Ying Z*, Li X, Wang X, Wu J, Wu M, Sun J, Sheng J, Zeng Y, Yan B, Yang X*, Ye J*. Self-sacrifice alkali acetate seed layer for efficient four-terminal perovskite/silicon tandem solar cells [J]. Nano Energy, 2022, 100: 107529. https://doi.org/10.1016/j.nanoen.2022.107529.

[7]    Sun J, Shou C, Sun J, Wang X, Yang Z, Chen Y, Wu J, Yang W, Long H, Ying Z*, Yang X*, Sheng J, Yan B, Ye J*. NiOX-seeded self-assembled monolayers as highly hole-selective passivating contacts for efficient inverted perovskite solar cells [J]. Solar RRL, 2021, 5 (11): 2100663. https://doi.org/10.1002/solr.202100663.

[8]    Yao L, Ying Z, Wang W, Yang Z, Sun J, Wang X, Yang X*, Zeng Y, Yan B, Xu X, Ye J*. Solution-processed and annealing-free zirconium acetylacetonate electron-selective contacts for efficient crystalline silicon solar cells [J]. Solar Energy, 2021, 215: 410-415. https://doi.org/10.1016/j.solener.2020.12.048.

[9]    Yang X, Ying Z, Yang Z, Xu J-R, Wang W, Wang J, Wang Z, Yao L, Yan B, Ye J*. Light-promoted electrostatic adsorption of high-density lewis base monolayers as passivating electron-selective contacts [J]. Advanced Science, 2021, 8 (5): 2003245. https://doi.org/10.1002/advs.202003245.

[10]  Wang Z, Yang X*, Yang Z, Guo W, Lin L, Li N, Jiang E, Zhang J, Yan B, Ye J*. Metal-Enhanced Adsorption of High-Density Polyelectrolyte Nucleation-Inducing Seed Layer for Highly Conductive Transparent Ultrathin Metal Films [J]. Frontiers in Materials, 2019, 6: 18. https://doi.org/10.3389/fmats.2019.00018.

[11]  Ying Z, Chen W, Lin Y, He Z, Chen T, Zhu Y, Zhang X, Yang X*, Djurišić A B*, He Z*. Supersmooth Ta2O5/Ag/Polyetherimide Film as the Rear Transparent Electrode for High Performance Semitransparent Perovskite Solar Cells [J]. Advanced Optical Materials, 2019, 7 (4): 1801409. https://doi.org/10.1002/adom.201801409.

[12]  Zhu J, Yang X*, Sheng J, Gao P*, Ye J*. Double-Layered PEDOT:PSS Films Inducing Strong Inversion Layers in Organic/Silicon Hybrid Heterojunction Solar Cells [J]. ACS Applied Energy Materials, 2018, 1 (6): 2874-2881. https://doi.org/10.1021/acsaem.8b00533.

[13]  Zhu J, Yang X*, Yang Z, Wang D, Gao P*, Ye J*. Achieving a Record Fill Factor for Silicon–Organic Hybrid Heterojunction Solar Cells by Using a Full‐Area Metal Polymer Nanocomposite Top Electrode [J]. Advanced Functional Materials, 2018, 28 (13): 1705425. https://doi.org/10.1002/adfm.201705425.

[14]  Yang X, Guo W, Wang X, Liao M, Gao P*, Ye J*. Fabrication of highly ordered 2D metallic arrays with disc-in-hole binary nanostructures via a newly developed nanosphere lithography [J]. Nanotechnology, 2017, 28 (47): 474001. https://doi.org/10.1088/1361-6528/aa929e.

[15]  Yang X, Gao P*, Yang Z, Zhu J, Huang F, Ye J*. Optimizing ultrathin Ag films for high performance oxide-metal-oxide flexible transparent electrodes through surface energy modulation and template-stripping procedures [J]. Scientific Reports, 2017, 7: 44576-44584. https://doi.org/10.1038/srep44576.

[16]  Yang X, Sheng J, Wu S, Chen D, Zhou J, Zhou S, He J, Gao P*, Ye J*. Colloidal transfer printing method for periodically textured thin films in flexible media with greatly enhanced solar energy harvesting [J]. Materials Research Express, 2015, 2 (10): 106402. https://doi.org/10.1088/2053-1591/2/10/106402.

[17]  Yang X, Zhou S, Wang D, He J, Zhou J, Li X, Gao P*, Ye J*. Light Trapping Enhancement in a Thin Film with 2D Conformal Periodic Hexagonal Arrays [J]. Nanoscale Research Letters, 2015, 10 (1): 284. https://doi.org/10.1186/s11671-015-0988-y.

[18]  Yang X, Ren X K, Ma C X, Zhang T H*, Tian J G, Xu J J. Regulation of photorefractive surface solitons [J]. Journal of the Optical Society of America B-Optical Physics, 2013, 30 (5): 1194-1199. https://doi.org/10.1364/JOSAB.30.001194.

[19]  Yang X, Chen W Q, Yao P, Zhang T H*, Tian J G, Xu J J. Observation of surface dark photovoltaic solitons [J]. Optics Express, 2013, 21 (4): 4783-4789. https://doi.org/10.1364/OE.21.004783.

专利信息：

1. 一种绒面钙钛矿晶硅叠层太阳电池及其制备方法   202310264576.8    张宁均 盛江 孙靖淞 叶继春 应智琴 杨熹
2. 一种钙钛矿半透明电池及其制备方法       202310264574.9    张宁均 盛江 孙靖淞 叶继春 应智琴 杨伟创 薛香盈 杨熹
3. 一种钙钛矿薄膜及其制备方法和应用       202310191110.X    李鑫 叶继春 杨熹 应智琴 郭旭超 汪新龙 吴铭
4. 一种具有钝化结构的钙钛矿太阳能电池及其制备方法   202310173870.8    "叶继春 郭旭超 杨熹 应智琴 李鑫 肖惠 苏诗茜
5. 一种N-I-P钙钛矿/硅叠层太阳能电池的透明窗口层优化方法       202310150136.X    叶继春 张美丽 应智琴 杨熹 陈颖 汪新龙 郭旭超
6. 一种钙钛矿薄膜及其制备方法和无空穴传输层的p-i-n型钙钛矿器件  202310082495.6    叶继春 苏诗茜 应智琴 杨熹 汪新龙 陈颖 郭旭超
7. 一种混合自组装单分子材料空穴传输层及其制备方法和应用       202310082493.7    叶继春 陈颖 杨熹 应智琴 汪新龙 郭旭超 吴铭
8. 一种透明导电氧化物的表面重构方法及其应用       202310082491.8    叶继春    吴铭       杨熹       应智琴    陈颖       张美丽    李鑫
9. 一种氯化哌嗪的制备方法及应用       202310038409.1    叶继春 李鑫 杨熹 应智琴 郭旭超 张美丽 苏诗茜
10. 一种钙钛矿晶体硅叠层太阳电池及其制备方法       202310036289.1    "叶继春  汪新龙    应智琴    杨熹       李鑫       郭旭超    孙怡涵"
11. 一种哌嗪类单卤素盐的制备方法及应用   202310018777.X    叶继春 李鑫 应智琴 杨熹 汪新龙 张美丽 苏诗茜
12. 一种钙钛矿晶体硅叠层太阳电池及其制备方法       202210874240.9    "叶继春  杨熹       应智琴    杨阵海    汪新龙   李鑫       陈颖"
13. 透明导电接触结构及半透明的钙钛矿电池       202210797877.2    "叶继春  杨熹       应智琴    肖惠       李鑫       陈颖       苏诗茜"
14. 一种太阳能电池基底制绒的方法       202210058794.1    寿春晖; 吴铭; 孙靖淞; 杨熹; 叶继春; 闫宝杰; 黄绵吉; 盛江
15. 一种碱金属醋酸盐修饰自组装空穴传输层的方法   202210049072.X    寿春晖; 陈颖; 孙靖淞; 杨熹; 应智琴; 贺海晏; 黄绵吉; 丁莞尔; 盛江; 闫宝杰; 叶继春
16. 一种基于钙钛矿/TOPCon的叠层太阳能电池及其制备方法   202111659252.1     叶继春    杨熹       应智琴    郑晶茗   曾俞衡    肖惠       吴铭
17. 界面复合结构及其制备方法和应用的两端叠层太阳电池       202111576837.7     叶继春 曾俞衡 丁泽韬 刘伟 杨熹 闫宝杰 廖明墩 孙靖淞
18. 一种垂直结构石墨烯的衬底快速筛选方法       202010843466.3    王俊杰;叶继春;邬苏东;杨熹;廖明墩
19. 一种垂直结构石墨烯的大面积快速制备方法   202010708947.3    王俊杰;叶继春;邬苏东;杨熹;廖明墩;盛江
20. 一种单晶硅倒金字塔阵列结构绒面及其制备方法和应用       201910086667       叶继春; 高平奇; 李思众; 杨熹; 韩灿
21. 高通量PECVD装置    201820744630.3    项晓东; 邬苏东; 张欢; 杨熹; 盛江; 叶继春
22. 高通量CVD装置  201820744022.2    邬苏东; 汪晓平; 杨熹; 叶继春; 张欢; 项晓东; 盛江
23. 一种富硼层和硼硅玻璃层的快速无损椭偏测试方法       201810638142.9    曾俞衡; 叶继春; 廖明墩; 王丹; 闫宝杰; 杨熹; 高平奇
24. 高通量PECVD装置和方法 201810480213.7    项晓东; 邬苏东; 张欢; 杨熹; 盛江; 叶继春
25. 高通量CVD装置及其沉积方法  201810479661.5    邬苏东; 汪晓平; 杨熹; 叶继春; 张欢; 项晓东; 盛江
26. 一种多孔硅薄膜的制备装置       201721178682 邬苏东; 芦子玉; 叶继春; 夏金才; 张欢; 杨熹; 杨阵海
27. 一种多孔硅薄膜的制备装置及其制备多孔硅薄膜的方法       201710828225.X   邬苏东; 芦子玉; 叶继春; 夏金才; 张欢; 杨熹; 杨阵海
28. 一种基于超薄金属网格的透明电极及其制备方法   201710760201.5    叶继春; 杨熹; 高平奇; 邬苏东; 肖剑峰; 黄志林; 夏金才; 周建宏
29. 一种高雾度的透明导电薄膜及其制备方法       201710759647.6    杨熹; 叶继春; 高平奇; 盛江; 肖剑峰; 黄志林; 夏金才; 周建宏
30. 多通道电流体喷射扫描系统       201610808461       高平奇; 叶继春; 杨熹; 何坚; 周素琼
31. 一种单晶硅倒金字塔阵列结构绒面及其制备方法和应用       201410196601.4    叶继春; 高平奇; 李思众; 杨熹; 韩灿