基本信息
杨栋 男 博导 中国科学院大连化学物理研究所
电子邮件: dongyang@dicp.ac.cn
通信地址: 辽宁省大连市沙河口区中山路457号化工楼114
邮政编码: 116023
电子邮件: dongyang@dicp.ac.cn
通信地址: 辽宁省大连市沙河口区中山路457号化工楼114
邮政编码: 116023
招生信息
招生专业
070304-物理化学
0805Z2-半导体材料与器件
0805Z2-半导体材料与器件
招生方向
钙钛矿和有机太阳能电池,钙钛矿材料和光电子器件
半导体材料和光伏器件
生物传感器
半导体材料和光伏器件
生物传感器
教育背景
2008-09--2014-07 中国科学院大连化学物理研究所 博士
2004-09--2008-07 内蒙古大学 学士
2004-09--2008-07 内蒙古大学 学士
工作经历
工作简历
2023-03~现在, 中国科学院大连化学物理研究所, 研究员
2022-07~2023-03,中国科学院大连化学物理研究所, 副研究员
2018-08~2022-06,美国宾夕法尼亚州立大学, 助理研究员
2017-07~2018-08,美国弗吉尼亚理工大学, 博士后
2014-11~2017-11,陕西师范大学, 师资博士后
2022-07~2023-03,中国科学院大连化学物理研究所, 副研究员
2018-08~2022-06,美国宾夕法尼亚州立大学, 助理研究员
2017-07~2018-08,美国弗吉尼亚理工大学, 博士后
2014-11~2017-11,陕西师范大学, 师资博士后
专利与奖励
奖励信息
(1) 大连市高层次人才(高端人才), , 市地级, 2023
(2) 张大煜青年学者, 研究所(学校), 2023
(3) 中国科学院专项人才, 院级, 2022
(4) 大连市自然科学优秀学术论文, 市地级, 2013
(2) 张大煜青年学者, 研究所(学校), 2023
(3) 中国科学院专项人才, 院级, 2022
(4) 大连市自然科学优秀学术论文, 市地级, 2013
专利成果
( 1 ) 一种高导电高透光电极及其制备和应用, 发明专利, 2021, 第 3 作者, 专利号: CN112242453A
( 2 ) 一种以二氧化钛纳米管阵列为电子传输层的钙钛矿电池及其制备方法, 2020, 第 5 作者, 专利号: CN106571426B
( 3 ) 一种钙钛矿太阳能电池及制备方法与其聚合物/富勒烯衍生物电荷传输层, 发明专利, 2019, 第 3 作者, 专利号: CN109860396A
( 4 ) 一种钙钛矿薄膜电池及其吸收层和吸收层制备方法, 专利授权, 2016, 第 3 作者, 专利号: CN106033796A
( 5 ) 一种大面积钙钛矿薄片及其制备和应用, 发明专利, 2015, 第 6 作者, 专利号: CN105200522A
( 6 ) 以高功函石墨烯衍生物为中间层的有机太阳能电池及制备, 发明专利, 2013, 第 3 作者, 专利号: CN103367641A
( 2 ) 一种以二氧化钛纳米管阵列为电子传输层的钙钛矿电池及其制备方法, 2020, 第 5 作者, 专利号: CN106571426B
( 3 ) 一种钙钛矿太阳能电池及制备方法与其聚合物/富勒烯衍生物电荷传输层, 发明专利, 2019, 第 3 作者, 专利号: CN109860396A
( 4 ) 一种钙钛矿薄膜电池及其吸收层和吸收层制备方法, 专利授权, 2016, 第 3 作者, 专利号: CN106033796A
( 5 ) 一种大面积钙钛矿薄片及其制备和应用, 发明专利, 2015, 第 6 作者, 专利号: CN105200522A
( 6 ) 以高功函石墨烯衍生物为中间层的有机太阳能电池及制备, 发明专利, 2013, 第 3 作者, 专利号: CN103367641A
出版信息
发表论文
[1] Liu, Jieqiong, Ye, Tao, Yu, Dongqu, Liu, Shengzhong Frank, Yang, Dong. Recoverable Flexible Perovskite Solar Cells for Next-Generation Portable Power Sources. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION. 2023, 62(40): http://dx.doi.org/10.1002/anie.202307225.
[2] Yang, Dong, Yang, Ruixia, Zhang, Cong, Ye, Tao, Wang, Kai, Hou, Yuchen, Zheng, Luyao, Priya, Shashank, Liu, Shengzhong Frank. Highest-Efficiency Flexible Perovskite Solar Module by Interface Engineering for Efficient Charge-Transfer. ADVANCED MATERIALS[J]. 2023, 35(32): http://dx.doi.org/10.1002/adma.202302484.
[3] Xie, Yurou, Feng, Jiangshan, Chen, Ming, Zhu, Xuejie, Zhou, Yawei, Li, Zhigang, Yang, Dong, Liu, Shengzhong Frank. Balanced-Strength Additive for High-Efficiency Stable Perovskite Solar Cells. ACS APPLIED ENERGY MATERIALS[J]. 2022, 5(7): 8034-8041, http://dx.doi.org/10.1021/acsaem.2c00473.
[4] Xuejie Zhu, Chenyu Wang, Cong Zhang, Ziyu Wang, Jiangshan Feng, Shengzhong Frank Liu, Dong Yang. Imidazolium-based ionic liquid for stable and highly efficient black-phase formamidinium-based perovskite solar cell. CHEMICAL ENGINEERING JOURNAL[J]. 2022, 434: http://dx.doi.org/10.1016/j.cej.2022.134759.
[5] Zhu, Xuejie, Du, Minyong, Feng, Jiangshan, Wang, Hui, Xu, Zhuo, Wang, Likun, Zuo, Shengnan, Wang, Chenyu, Wang, Ziyu, Zhang, Cong, Ren, Xiaodong, Priya, Shashank, Yang, Dong, Liu, Shengzhong Frank. High-Efficiency Perovskite Solar Cells with Imidazolium-Based Ionic Liquid for Surface Passivation and Charge Transport. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION[J]. 2021, 60(8): 4238-4244, http://dx.doi.org/10.1002/anie.202010987.
[6] Wei, Qingbo, Chang, Dongpu, Ye, Zhangwen, Li, Xue, Zan, Lingxing, Gao, Loujun, Fu, Feng, Yang, Dong. Giant improvement of performances of perovskite solar cells via component engineering. JOURNAL OF COLLOID AND INTERFACE SCIENCE[J]. 2021, 588: 393-400, http://dx.doi.org/10.1016/j.jcis.2020.12.046.
[7] Feng, Jiangshan, Jiao, Yuxiao, Wang, Hui, Zhu, Xuejie, Sun, Youming, Du, Minyong, Cao, Yuexian, Yang, Dong, Liu, Shengzhong Frank. High-throughput large-area vacuum deposition for high-performance formamidine-based perovskite solar cells. ENERGY & ENVIRONMENTAL SCIENCE[J]. 2021, 14(5): 3035-3043, http://dx.doi.org/10.1039/d1ee00634g.
[8] Wang, Ziyu, Zhu, Xuejie, Feng, Jiangshan, Wang, Chenyu, Zhang, Cong, Ren, Xiaodong, Priya, Shashank, Liu, Shengzhong Frank, Yang, Dong. Antisolvent- and Annealing-Free Deposition for Highly Stable Efficient Perovskite Solar Cells via Modified ZnO. ADVANCED SCIENCE[J]. 2021, 8(13): n/a-n/a, https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8261502/.
[9] Wang, Ziyu, Zhu, Xuejie, Feng, Jiangshan, Yang, Dong, Liu, Shengzhong Frank. Semitransparent Flexible Perovskite Solar Cells for Potential Greenhouse Applications. SOLAR RRL[J]. 2021, 5(8): http://dx.doi.org/10.1002/solr.202100264.
[10] Wei, Qingbo, Ye, Zhangwen, Ren, Xiaodong, Fu, Feng, Yang, Zhou, Liu, Shengzhong Frank, Yang, Dong. Highly stable and efficient perovskite solar cells produced via high-boiling point solvents and additive engineering synergistically. SCIENCE CHINA-CHEMISTRY[J]. 2020, 63(6): 818-826, http://lib.cqvip.com/Qikan/Article/Detail?id=7102052395.
[11] Wang, Ziyu, Zhu, Xuejie, Zuo, Shengnan, Chen, Ming, Zhang, Cong, Wang, Chenyu, Ren, Xiaodong, Yang, Zhou, Liu, Zhike, Xu, Xixiang, Chang, Qing, Yang, Shaofei, Meng, Fanying, Liu, Zhengxin, Yuan, Ningyi, Ding, Jianning, Liu, Shengzhong Frank, Yang, Dong. 27%-Efficiency Four-Terminal Perovskite/Silicon Tandem Solar Cells by Sandwiched Gold Nanomesh. ADVANCED FUNCTIONAL MATERIALS[J]. 2020, 30(4): https://www.webofscience.com/wos/woscc/full-record/WOS:000493814400001.
[12] Zuo, Shengnan, Zhu, Xuejie, Feng, Jiangshan, Wang, Ziyu, Zhang, Cong, Wang, Chenyu, Ren, Xiaodong, Liu, Shengzhou Frank, Yang, Dong. High-Performance Inverted Perovskite Solar Cells by Reducing Electron Capture Region for Electron Transport Layers. SOLAR RRL[J]. 2019, 3(9):
[13] Wang, Kai, Yang, Dong, Wu, Congcong, Sanghadasa, Mohan, Priya, Shashank. Recent progress in fundamental understanding of halide perovskite semiconductors. PROGRESS IN MATERIALS SCIENCE[J]. 2019, 106: http://dx.doi.org/10.1016/j.pmatsci.2019.100580.
[14] Wang, Ziyu, Song, Zhaoning, Yan, Yanfa, Liu, Shengzhong Frank, Yang, Dong. Perovskite-a Perfect Top Cell for Tandem Devices to Break the S-Q Limit. ADVANCED SCIENCE[J]. 2019, 6(7): http://www.corc.org.cn/handle/1471x/2372622.
[15] Yang, Dong, Yang, Ruixia, Priya, Shashank, Liu, Shengzhong Frank. Recent Advances in Flexible Perovskite Solar Cells: Fabrication and Applications. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION[J]. 2019, 58(14): 4466-4483, http://cas-ir.dicp.ac.cn/handle/321008/165730.
[16] Yang, Dong, Zhang, Xiaorong, Wang, Kai, Wu, Congcong, Yang, Ruixia, Hou, Yuchen, Jiang, Yuanyuan, Liu, Shengzhong, Priya, Shashank. Stable Efficiency Exceeding 20.6% for Inverted Perovskite Solar Cells through Polymer-Optimized PCBM Electron-Transport Layers. NANO LETTERS[J]. 2019, 19(5): 3313-3320, http://cas-ir.dicp.ac.cn/handle/321008/171911.
[17] Zhu, Xuejie, Zuo, Shengnan, Yang, Zhou, Feng, Jiangshan, Wang, Ziyu, Zhang, Xiaorong, Priya, Shashank, Liu, Shengzhong Frank, Yang, Dong. In Situ Grain Boundary Modification via Two-Dimensional Nanoplates to Remarkably Improve Stability and Efficiency of Perovskite Solar Cells. ACS APPLIED MATERIALS & INTERFACES[J]. 2018, 10(46): 39802-39808, http://www.corc.org.cn/handle/1471x/2373039.
[18] Dong Yang, Ruixia Yang, Kai Wang, Congcong Wu, Xuejie Zhu, Jiangshan Feng, Xiaodong Ren, Guojia Fang, Shashank Priya, Shengzhong Frank Liu. High efficiency planar-type perovskite solar cells with negligible hysteresis using EDTA-complexed SnO2. NATURE COMMUNICATIONS[J]. 2018, 9(1): https://doaj.org/article/4f260cb213534dfe8fba349b1e7070ea.
[19] Niu, Jinzhi, Yang, Dong, Yang, Zhou, Wang, Dapeng, Zhu, Xuejie, Zhang, Xiaorong, Zuo, Shengnan, Feng, Jiangshan, Liu, Shengzhong Frank. Chelate-Pb Intermediate Engineering for High-Efficiency Perovskite Solar Cells. ACS APPLIED MATERIALS & INTERFACES[J]. 2018, 10(17): 14744-14750, http://cas-ir.dicp.ac.cn/handle/321008/167216.
[20] Zhu, Xuejie, Xu, Zhuo, Zuo, Shengnan, Feng, Jiangshan, Wang, Ziyu, Zhang, Xiaorong, Zhao, Kui, Zhang, Jian, Liu, Hairui, Priya, Shashank, Liu, Shengzhong Frank, Yang, Dong. Vapor-fumigation for record efficiency two-dimensional perovskite solar cells with superior stability. ENERGY & ENVIRONMENTAL SCIENCE[J]. 2018, 11(12): 3349-3357, http://cas-ir.dicp.ac.cn/handle/321008/166438.
[21] Feng, Jiangshan, Zhu, Xuejie, Yang, Zhou, Zhang, Xiaorong, Niu, Jinzhi, Wang, Ziyu, Zuo, Shengnan, Priya, Shashank, Liu, Shengzhong Frank, Yang, Dong. Record Efficiency Stable Flexible Perovskite Solar Cell Using Effective Additive Assistant Strategy. ADVANCED MATERIALS[J]. 2018, 30(35): https://www.webofscience.com/wos/woscc/full-record/WOS:000442732400007.
[22] Zhang, Xiaorong, Yang, Dong, Yang, Ruixia, Zhu, Xuejie, Feng, Jiangshan, Wang, Ziyu, Zuo, Shengnan, Niu, Jinzhi, Liu, Shengzhong. Exposed the mechanism of lead chloride dopant for high efficiency planar-structure perovskite solar cells. ORGANIC ELECTRONICS[J]. 2018, 62: 499-504, http://dx.doi.org/10.1016/j.orgel.2018.06.020.
[23] Liu Shengzhong Frank, Liu Yucheng, Zhu Xuejie, Feng Jiangshan, Yang Zhou, Zhao Kui, Yang Dong, IEEE. Perovskite-A Wonder Material for Photovoltaic and Optoelectronic Applications. 2018 IEEE 7TH WORLD CONFERENCE ON PHOTOVOLTAIC ENERGY CONVERSION (WCPEC) (A JOINT CONFERENCE OF 45TH IEEE PVSC, 28TH PVSEC & 34TH EU PVSEC)[J]. 2018, 3503-3505,
[24] Wei, Qingbo, Zi, Wei, Yang, Zhou, Yang, Dong. Photoelectric performance and stability comparison of MAPbI(3) and FAPbI(3) perovskite solar cells. SOLAR ENERGY[J]. 2018, 174: 933-939, http://dx.doi.org/10.1016/j.solener.2018.09.057.
[25] Ren, Xiaodong, Yang, Dong, Yang, Zhou, Feng, Jiangshan, Zhu, Xuejie, Niu, Jinzhi, Liu, Yucheng, Zhao, Wangen, Liu, Shengzhong Frank. Solution-Processed Nb:SnO2 Electron Transport Layer for Efficient Planar Perovskite Solar Cells. ACS APPLIED MATERIALS & INTERFACES[J]. 2017, 9(3): 2421-2429, http://cas-ir.dicp.ac.cn/handle/321008/169696.
[26] Zhu, Xuejie, Yang, Dong, Yang, Ruixia, Yang, Bin, Yang, Zhou, Ren, Xiaodong, Zhang, Jian, Niu, Jinzhi, Feng, Jiangshan, Liu, Shengzhong Frank. Superior stability for perovskite solar cells with 20% efficiency using vacuum co-evaporation. NANOSCALE[J]. 2017, 9(34): 12316-12323, http://dx.doi.org/10.1039/c7nr04501h.
[27] Niu, Jinzhi, Yang, Dong, Ren, Xiaodong, Yang, Zhou, Liu, Yucheng, Zhu, Xuejie, Zhao, Wangen, Liu, Shengzhong Frank. Graphene-oxide doped PEDOT: PSS as a superior hole transport material for high-efficiency perovskite solar cell. ORGANIC ELECTRONICS[J]. 2017, 48: 165-171, http://dx.doi.org/10.1016/j.orgel.2017.05.044.
[28] Wei, Qingbo, Yang, Dong, Yang, Zhou, Ren, Xiaodong, Liu, Yucheng, Feng, Jiangshan, Zhu, Xuejie, Liu, Shengzhong Frank. Effective solvent-additive enhanced crystallization and coverage of absorber layers for high efficiency formamidinium perovskite solar cells. RSC ADVANCES[J]. 2016, 6(62): S6807-S6811, http://cas-ir.dicp.ac.cn/handle/321008/170380.
[29] Yang Dong, Zhang Jing, Yang Zhou, Liu Shengzhong Frank, IEEE. Stable High Efficiency Perovskite Solar Cells Using Vacuum Deposition. 2016 IEEE 43RD PHOTOVOLTAIC SPECIALISTS CONFERENCE (PVSC)[J]. 2016, 86-88,
[30] Yang, Dong, Zhou, Xin, Yang, Ruixia, Yang, Zhou, Yu, Wei, Wang, Xiuli, Li, Can, Liu, Shengzhong Frank, Chang, Robert P H. Surface optimization to eliminate hysteresis for record efficiency planar perovskite solar cells. ENERGY & ENVIRONMENTAL SCIENCE[J]. 2016, 9(10): 3071-3078, http://cas-ir.dicp.ac.cn/handle/321008/169958.
[31] Yang, Dong, Yang, Ruixia, Ren, Xiaodong, Zhu, Xuejie, Yang, Zhou, Li, Can, Liu, Shengzhong Frank. Hysteresis-Suppressed High-Efficiency Flexible Perovskite Solar Cells Using Solid-State Ionic-Liquids for Effective Electron Transport. ADVANCED MATERIALS[J]. 2016, 28(26): 5206-+, http://cas-ir.dicp.ac.cn/handle/321008/170400.
[32] Zhang, Xisheng, Yang, Dong, Yang, Zhou, Guo, Xiaojia, Liu, Bin, Ren, Xiaodong, Liu, Shengzhong Frank. Improved PEDOT:PSS/c-Si hybrid solar cell using inverted structure and effective passivation. SCIENTIFIC REPORTS[J]. 2016, 6: http://cas-ir.dicp.ac.cn/handle/321008/169888.
[33] Yang, Dong, Yang, Ruixia, Zhang, Jing, Yang, Zhou, Liu, Shengzhong Frank, Li, Can. High efficiency flexible perovskite solar cells using superior low temperature TiO2. ENERGY & ENVIRONMENTAL SCIENCE[J]. 2015, 8(11): 3208-3214, http://cas-ir.dicp.ac.cn/handle/321008/148181.
[34] Yang, Dong, Yang, Zhou, Qin, Wei, Zhang, Yuliang, Liu, Shengzhong Frank, Li, Can. Alternating precursor layer deposition for highly stable perovskite films towards efficient solar cells using vacuum deposition. JOURNAL OF MATERIALS CHEMISTRY A[J]. 2015, 3(18): 9401-9405, http://cas-ir.dicp.ac.cn/handle/321008/146228.
[35] Yang, Dong, Fu, Ping, Zhang, Fujun, Wang, Nan, Zhang, Jian, Li, Can. High efficiency inverted polymer solar cells with room-temperature titanium oxide/polyethylenimine films as electron transport layers. JOURNAL OF MATERIALS CHEMISTRY A[J]. 2014, 2(41): 17281-17285, http://cas-ir.dicp.ac.cn/handle/321008/145765.
[36] Yang, Dong, Zhou, Lingyu, Yu, Wei, Zhang, Jian, Li, Can. Work-Function-Tunable Chlorinated Graphene Oxide as an Anode Interface Layer in High-Efficiency Polymer Solar Cells. ADVANCED ENERGY MATERIALS[J]. 2014, 4(15): http://cas-ir.dicp.ac.cn/handle/321008/144268.
[37] Yang, Dong, Zhou, Lingyu, Chen, Lingcheng, Zhao, Bin, Zhang, Jian, Li, Can. Chemically modified graphene oxides as a hole transport layer in organic solar cells. CHEMICAL COMMUNICATIONS[J]. 2012, 48(65): 8078-8080, http://159.226.238.44/handle/321008/143013.
[2] Yang, Dong, Yang, Ruixia, Zhang, Cong, Ye, Tao, Wang, Kai, Hou, Yuchen, Zheng, Luyao, Priya, Shashank, Liu, Shengzhong Frank. Highest-Efficiency Flexible Perovskite Solar Module by Interface Engineering for Efficient Charge-Transfer. ADVANCED MATERIALS[J]. 2023, 35(32): http://dx.doi.org/10.1002/adma.202302484.
[3] Xie, Yurou, Feng, Jiangshan, Chen, Ming, Zhu, Xuejie, Zhou, Yawei, Li, Zhigang, Yang, Dong, Liu, Shengzhong Frank. Balanced-Strength Additive for High-Efficiency Stable Perovskite Solar Cells. ACS APPLIED ENERGY MATERIALS[J]. 2022, 5(7): 8034-8041, http://dx.doi.org/10.1021/acsaem.2c00473.
[4] Xuejie Zhu, Chenyu Wang, Cong Zhang, Ziyu Wang, Jiangshan Feng, Shengzhong Frank Liu, Dong Yang. Imidazolium-based ionic liquid for stable and highly efficient black-phase formamidinium-based perovskite solar cell. CHEMICAL ENGINEERING JOURNAL[J]. 2022, 434: http://dx.doi.org/10.1016/j.cej.2022.134759.
[5] Zhu, Xuejie, Du, Minyong, Feng, Jiangshan, Wang, Hui, Xu, Zhuo, Wang, Likun, Zuo, Shengnan, Wang, Chenyu, Wang, Ziyu, Zhang, Cong, Ren, Xiaodong, Priya, Shashank, Yang, Dong, Liu, Shengzhong Frank. High-Efficiency Perovskite Solar Cells with Imidazolium-Based Ionic Liquid for Surface Passivation and Charge Transport. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION[J]. 2021, 60(8): 4238-4244, http://dx.doi.org/10.1002/anie.202010987.
[6] Wei, Qingbo, Chang, Dongpu, Ye, Zhangwen, Li, Xue, Zan, Lingxing, Gao, Loujun, Fu, Feng, Yang, Dong. Giant improvement of performances of perovskite solar cells via component engineering. JOURNAL OF COLLOID AND INTERFACE SCIENCE[J]. 2021, 588: 393-400, http://dx.doi.org/10.1016/j.jcis.2020.12.046.
[7] Feng, Jiangshan, Jiao, Yuxiao, Wang, Hui, Zhu, Xuejie, Sun, Youming, Du, Minyong, Cao, Yuexian, Yang, Dong, Liu, Shengzhong Frank. High-throughput large-area vacuum deposition for high-performance formamidine-based perovskite solar cells. ENERGY & ENVIRONMENTAL SCIENCE[J]. 2021, 14(5): 3035-3043, http://dx.doi.org/10.1039/d1ee00634g.
[8] Wang, Ziyu, Zhu, Xuejie, Feng, Jiangshan, Wang, Chenyu, Zhang, Cong, Ren, Xiaodong, Priya, Shashank, Liu, Shengzhong Frank, Yang, Dong. Antisolvent- and Annealing-Free Deposition for Highly Stable Efficient Perovskite Solar Cells via Modified ZnO. ADVANCED SCIENCE[J]. 2021, 8(13): n/a-n/a, https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8261502/.
[9] Wang, Ziyu, Zhu, Xuejie, Feng, Jiangshan, Yang, Dong, Liu, Shengzhong Frank. Semitransparent Flexible Perovskite Solar Cells for Potential Greenhouse Applications. SOLAR RRL[J]. 2021, 5(8): http://dx.doi.org/10.1002/solr.202100264.
[10] Wei, Qingbo, Ye, Zhangwen, Ren, Xiaodong, Fu, Feng, Yang, Zhou, Liu, Shengzhong Frank, Yang, Dong. Highly stable and efficient perovskite solar cells produced via high-boiling point solvents and additive engineering synergistically. SCIENCE CHINA-CHEMISTRY[J]. 2020, 63(6): 818-826, http://lib.cqvip.com/Qikan/Article/Detail?id=7102052395.
[11] Wang, Ziyu, Zhu, Xuejie, Zuo, Shengnan, Chen, Ming, Zhang, Cong, Wang, Chenyu, Ren, Xiaodong, Yang, Zhou, Liu, Zhike, Xu, Xixiang, Chang, Qing, Yang, Shaofei, Meng, Fanying, Liu, Zhengxin, Yuan, Ningyi, Ding, Jianning, Liu, Shengzhong Frank, Yang, Dong. 27%-Efficiency Four-Terminal Perovskite/Silicon Tandem Solar Cells by Sandwiched Gold Nanomesh. ADVANCED FUNCTIONAL MATERIALS[J]. 2020, 30(4): https://www.webofscience.com/wos/woscc/full-record/WOS:000493814400001.
[12] Zuo, Shengnan, Zhu, Xuejie, Feng, Jiangshan, Wang, Ziyu, Zhang, Cong, Wang, Chenyu, Ren, Xiaodong, Liu, Shengzhou Frank, Yang, Dong. High-Performance Inverted Perovskite Solar Cells by Reducing Electron Capture Region for Electron Transport Layers. SOLAR RRL[J]. 2019, 3(9):
[13] Wang, Kai, Yang, Dong, Wu, Congcong, Sanghadasa, Mohan, Priya, Shashank. Recent progress in fundamental understanding of halide perovskite semiconductors. PROGRESS IN MATERIALS SCIENCE[J]. 2019, 106: http://dx.doi.org/10.1016/j.pmatsci.2019.100580.
[14] Wang, Ziyu, Song, Zhaoning, Yan, Yanfa, Liu, Shengzhong Frank, Yang, Dong. Perovskite-a Perfect Top Cell for Tandem Devices to Break the S-Q Limit. ADVANCED SCIENCE[J]. 2019, 6(7): http://www.corc.org.cn/handle/1471x/2372622.
[15] Yang, Dong, Yang, Ruixia, Priya, Shashank, Liu, Shengzhong Frank. Recent Advances in Flexible Perovskite Solar Cells: Fabrication and Applications. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION[J]. 2019, 58(14): 4466-4483, http://cas-ir.dicp.ac.cn/handle/321008/165730.
[16] Yang, Dong, Zhang, Xiaorong, Wang, Kai, Wu, Congcong, Yang, Ruixia, Hou, Yuchen, Jiang, Yuanyuan, Liu, Shengzhong, Priya, Shashank. Stable Efficiency Exceeding 20.6% for Inverted Perovskite Solar Cells through Polymer-Optimized PCBM Electron-Transport Layers. NANO LETTERS[J]. 2019, 19(5): 3313-3320, http://cas-ir.dicp.ac.cn/handle/321008/171911.
[17] Zhu, Xuejie, Zuo, Shengnan, Yang, Zhou, Feng, Jiangshan, Wang, Ziyu, Zhang, Xiaorong, Priya, Shashank, Liu, Shengzhong Frank, Yang, Dong. In Situ Grain Boundary Modification via Two-Dimensional Nanoplates to Remarkably Improve Stability and Efficiency of Perovskite Solar Cells. ACS APPLIED MATERIALS & INTERFACES[J]. 2018, 10(46): 39802-39808, http://www.corc.org.cn/handle/1471x/2373039.
[18] Dong Yang, Ruixia Yang, Kai Wang, Congcong Wu, Xuejie Zhu, Jiangshan Feng, Xiaodong Ren, Guojia Fang, Shashank Priya, Shengzhong Frank Liu. High efficiency planar-type perovskite solar cells with negligible hysteresis using EDTA-complexed SnO2. NATURE COMMUNICATIONS[J]. 2018, 9(1): https://doaj.org/article/4f260cb213534dfe8fba349b1e7070ea.
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科研活动
科研项目
( 1 ) 超强韧性高效率柔性钙钛矿太阳能电池的研究, 负责人, 国家任务, 2020-01--2023-12
( 2 ) 柔性大面积高效稳定钙钛矿太阳能电池及产线研发, 参与, 境内委托项目, 2022-03--2024-12
( 3 ) 大面积柔性钙钛矿太阳能电池和组件, 负责人, 中国科学院计划, 2023-05--2030-05
( 4 ) 轻便柔性钙钛矿薄膜太阳能电池的研究与应用, 负责人, 地方任务, 2018-08--2020-12
( 5 ) 基于功函可调的氧化石墨烯衍生物高效率柔性钙钛 矿太阳能电池的界面工程,, 负责人, 国家任务, 2017-01--2019-12
( 6 ) 基于氯化-氧化石墨烯钙钛矿太阳能 电池光电机理研究, 负责人, 国家任务, 2015-11--2017-01
( 2 ) 柔性大面积高效稳定钙钛矿太阳能电池及产线研发, 参与, 境内委托项目, 2022-03--2024-12
( 3 ) 大面积柔性钙钛矿太阳能电池和组件, 负责人, 中国科学院计划, 2023-05--2030-05
( 4 ) 轻便柔性钙钛矿薄膜太阳能电池的研究与应用, 负责人, 地方任务, 2018-08--2020-12
( 5 ) 基于功函可调的氧化石墨烯衍生物高效率柔性钙钛 矿太阳能电池的界面工程,, 负责人, 国家任务, 2017-01--2019-12
( 6 ) 基于氯化-氧化石墨烯钙钛矿太阳能 电池光电机理研究, 负责人, 国家任务, 2015-11--2017-01
参与会议
(1)High Efficiency Perovskite Solar Cells 2019-09-04
(2)Record Efficiency Stable Flexible Perovskite Solar Cell Using Effective Additive Assistant Strategy 2018-09-06
(3)Effective Electron Transport Materials for High Efficiency Flexible Perovskite Solar Cells 2017-09-13
(4)高效率柔性钙钛矿太阳能电池 中国化学会第30届学术年会 2016-07-04
(2)Record Efficiency Stable Flexible Perovskite Solar Cell Using Effective Additive Assistant Strategy 2018-09-06
(3)Effective Electron Transport Materials for High Efficiency Flexible Perovskite Solar Cells 2017-09-13
(4)高效率柔性钙钛矿太阳能电池 中国化学会第30届学术年会 2016-07-04