Team Introduction

ZKFN Leading · Top-tier Team

Wang Yaoming

Wang Yaoming Ph.D.

Founder of the Company

Wang Yaoming, male, Ph.D., is the core inventor of TSR-Armor technology. He has long been engaged in the research of advanced thin-film photovoltaic technology, and has profound academic attainments and rich industrialization experience in the field of advanced photovoltaic materials and devices.

He has presided over and participated in a number of national-level scientific research projects such as the National Natural Science Foundation of China, the National 863 Program, and the Innovation Directional Project of the Chinese Academy of Sciences. His invented TSR-Armor™ 3D multi-scale synergistic reinforcement technology has successfully solved the common industry problem that lightweight and high strength of crystalline silicon photovoltaic modules are difficult to balance, laying a solid foundation for the large-scale application of lightweight photovoltaics.

He has published 49 SCI papers and obtained 18 authorized invention patents in China, the United States, Japan, South Korea and other countries. He was awarded the Second Prize of Chinese National Natural Science Award in 2017 and the First Prize of Shanghai Natural Science Award in 2016.

Career Experience

  • 2004: Graduated from the School of Materials Science and Engineering, Jilin University, with a Bachelor's degree.
  • 2009: Graduated from the Shanghai Institute of Ceramics, Chinese Academy of Sciences (SICCAS), with a Doctor's degree.
  • 2009-Present: Worked at SICCAS, serving successively as Assistant Researcher and Associate Researcher.
  • 2022: Founded Shandong ZKFN Solar Technology Co., Ltd., committed to the industrialization of high-performance lightweight photovoltaic modules.

Research Fields

  • High-performance photovoltaic materials and device technology
  • Lightweight and high-strength photovoltaic module packaging technology
  • Design and preparation of new inorganic non-metallic materials

Representative Papers

  • Wang YM, Liu ZQ, Zhu XL, Tang YF, Huang FQ*, Highly lithium-ion conductive thio-LISICON thin film processed by low-temperature solution method, Journal of Power Sources 2013, 224, 225-229.
  • Wang YM, Yin X, Huang FQ*, The intrinsically red luminescence of tungsten bronze compound EuK2Nb5O15 for light emitting diodes, Materials Letters 2012, 88, 119-121.
  • Wang YM, Wu JJ, Tang YF, Lv XJ, Yang CY, Qin MS, Huang FQ, Li X, Zhang X, Phase-Controlled Synthesis of Cobalt Sulfides for Lithium Ion Batteries, ACS Appl. Mater. Interfaces, 2012, 4, 4246–4250.
  • Wang YM, Liu ZQ, Huang FQ*, Yang JH, Sun JK. A strategy to improve the overall performance of the lithium ion-conducting solid electrolyte Li0.36La0.56□0.08Ti0.97Al0.03O3. Europe Journal of Inorganic Chemistry 2008, 38, 5599-5602.
  • Wang YM, Huang FQ*, Chen LD, Li HL, Lin XP, Wang WD, Xia YJ. Solution-processed p-type transparent conducting BaCu2S2 thin film. Chemistry of Materials 2007, 19, 3102-3104.
  • Liu XY, Zhao W, Cui HL, Xie YA, Wang YM*, Xu T*, Huang FQ*, Organic-inorganic halide perovskite based solar cells: revolutionary progress in photovoltaics, Inorganic Chemistry Frontiers, 2015, 2, 315-335.
  • Zhu XL, Wang YM*, Zhou Z, Li AM, Zhang L, Huang FQ*, 13.6%-efficient Cu(In,Ga)Se2 solar cell with absorber fabricated by RF sputtering of (In,Ga)2Se3 and CuSe targets, Solar Energy Materials and Solar Cells, 2013, 113, 140-143.
  • Zhu XL, Zhou Z, Wang YM*, Zhang L, Li AM, Huang FQ, Determining factor of MoSe2 formation in Cu(In,Ga)Se2 solar Cells, Solar Energy Materials & Solar Cells 2012, 101, 57-61.
  • Wu JJ, Huang FQ*, Shan ZC, Wang YM*, Quasi-linear Dependence of Cation Filling on the Photocatalysis of AxBO3-Based Tunnel Compounds, Dalton Transactions, 2011, 40, 6906-6911.
  • Ding SJ, Wang YM*, Hong ZL, Xujie Lu, Wan DY, Huang FQ, Biomolecule-Assisted Route to Prepare Titania Mesoporous Hollow Structures, Chemistry - A European Journal, 2011, 17, 11535-11541.

Partial Authorized Patents

  • Fuqiang Huang, Yaoming Wang, Preparation Method of Light Absorption Layer of Copper-Indium-Gallium-Sulfur-Selenium Thin Film Solar Cells, Aug 15, 2017, USA, US9735297 (B2)
  • A composite material packaging layer with three-dimensional reinforced structure (CN20231XXXXXXX.X)
  • Fuqiang Huang, Yaoming Wang, Preparation Method of Light Absorption Layer of Copper-Indium-Gallium-Sulfur-Selenium Thin Film Solar Cells, Jun 24, 2016, South Korea, KR101633388 (B1)
  • Huang Fuqiang, Wang Yaoming, Preparation Method of Light Absorption Layer of Copper-Indium-Gallium-Sulfur-Selenium Thin Film Solar Cells, Dec 24, 2014, Japan, JP5646342 (B2)
  • Fuqiang Huang, Yaoming Wang, Preparation Method of Light Absorption Layer of Copper-Indium-Gallium-Sulfur-Selenium Thin Film Solar Cells, Mar 27, 2012, Russia, RU2446510 (C1)
  • Huang Fuqiang, Wang Yaoming, Zhu Xiaolong, Lv Xujie, Wang Jing, Preparation method of light absorption layer of copper indium gallium selenium sulfur thin film solar cell, Jan 02, 2013, China, ZL201010118290.1
  • Huang Fuqiang, Wang Yaoming, Zhu Xiaolong, Li Aimin, Zhang Lei, Method for preparing light absorption layer of copper indium gallium selenium thin film solar cell by magnetron sputtering, Oct 31, 2012, China, ZL201010118300.1
  • Huang Fuqiang, Wang Yaoming, An I2-II-IV-VI4-based thin film solar cell, May 30, 2012, China, ZL201010118299.2
  • Huang Fuqiang, Wang Yaoming, Preparation method of light absorption layer of copper indium gallium sulfur selenium thin film solar cell, Apr 11, 2012, China, ZL200880124039.7
  • Huang Fuqiang, Wang Yaoming, Preparation method of light absorption layer of copper zinc cadmium tin sulfur selenium thin film solar cell, Oct 05, 2011, China, ZL201010118303.5
  • Huang Fuqiang, Wang Yaoming, Preparation of light absorption layer of copper indium gallium selenium thin film solar cell by light-assisted method, Oct 05, 2011, China, ZL 201010118289.9
Huang Fuqiang

Huang Fuqiang Professor

Chief Scientist

Huang Fuqiang, male, is a Researcher and Doctoral Supervisor at the Shanghai Institute of Ceramics, Chinese Academy of Sciences. He is also a Professor (Dual Appointment) at the Department of Chemistry, Peking University. He is a recipient of the National Science Fund for Distinguished Young Scholars and a Chang Jiang Scholar Distinguished Professor of the Ministry of Education.

Work Experience

  • Jun 1996 ~ May 1998: Research Associate, Department of Chemistry, University of Michigan, USA
  • Jun 1998 ~ Dec 2000: Postdoctoral Fellow, Department of Chemistry, Northwestern University, USA
  • Jan 2001 ~ Jun 2002: Principal Scientist, Osram Sylvania Inc., Siemens Group, USA
  • Jul 2002 ~ Nov 2003: Research Staff, Department of Materials Science and Engineering, University of Pennsylvania, USA
  • Dec 2003 ~ Jun 2023: Researcher/Chief Researcher, Shanghai Institute of Ceramics, Chinese Academy of Sciences
  • Mar 2010 ~ Jul 2023: Professor/Boya Distinguished Professor (Part-time), College of Chemistry and Molecular Engineering, Peking University
  • Jul 2023 ~ Present: Chair Professor, School of Materials Science and Engineering, Shanghai Jiao Tong University

Academic Affiliations and Honors

  • Fellow of the Royal Society of Chemistry (FRSC), UK
  • Fellow of the Chinese Chemical Society
  • Recipient of the National Science Fund for Distinguished Young Scholars (2005)
  • Chang Jiang Scholar Distinguished Professor of the Ministry of Education (2012)
  • Leading Talent in Scientific and Technological Innovation of the National Ten Thousand Talents Program (2016)
  • Listed in the World's Top 2% Scientists
  • Clarivate Highly Cited Researcher
  • Second Prize of National Natural Science Award (First Contributor, 2017)
  • First Prize of Shanghai Natural Science Award (First Contributor, 2016)

Main Research Directions

He is mainly engaged in the design and preparation of new energy materials and devices, including new solar cells, energy storage batteries and key materials. He is committed to regulating the microstructure and electronic structure of materials through chemical tailoring, physical field assistance and other means to achieve breakthroughs in material performance.

Representative Papers

He has published more than 500 papers in top international journals such as Science, Nature Materials, Nature Energy, JACS, Angew. Chem. Int. Ed., Adv. Mater., Phys. Rev. Lett., with more than 30,000 citations and an H-index > 90.

  • Tianquan Lin,I-Wei Chen,Fengxin Liu,Chongyin Yang,Hui Bi,Fangfang Xu,Fuqiang Huang;Nitrogen-doped mesoporous carbon of extraordinary capacitance for electrochemical energy storage;Science 2015, 350(6267): 1508-1513;
  • Mingzhi Cai,Yanhao Dong,Miao Xie,Wujie Dong,Chenlong Dong,Peng Dai,Hui Zhang,Xin Wang,Xuzhou Sun,Shaoning Zhang,Moonsu Yoon,Haowei Xu,Yunsong Ge,Ju Li,Fuqiang Huang;Stalling oxygen evolution in high-voltage cathodes by lanthurization;Nature Energy 2023, 8(2):159-168;
  • Yonghao Yuan,Jie Pan,Xintong Wang,Yuqiang Fang,Canli Song,Lili Wang,Ke He,Xucun Ma,Haijun Zhang,Fuqiang Huang,Wei Li,Qikun Xue;Evidence of anisotropic Majorana bound states in 2M-WS2;Nature Physics 2019, 15(10): 1046-1051;
  • Shuyi Kong,Ximeng Lv,Xin Wang,Zhengzheng Liu,Zichuang Li,Bingquan Jia,Du Sun,Chao Yang,Lijia Liu,Anxiang Guan,Jiacheng Wang,Gengfeng Zheng,Fuqiang Huang;Delocalization state-induced selective bond breaking for efficient methanol electrosynthesis from CO2;Nature Catalysis 2022, 6(1): 6-15;
  • Enze Zhang,Yingming Xie,Yuqiang Fang,Jinglei Zhang,Xian Xu,Yichao Zou,Pengliang Leng,Xuejian Gao,Yong Zhang,Linfeng Ai,Yuda Zhang,Zehao Jia,Shanshan Liu,Jingyi Yan,Wei Zhao,Sarah J Haigh,Xufeng Kou,Jinshan Yang,Fuqiang Huang,K.T. Law,Faxian Xiu,Shaoming Dong;Spin–orbit–parity coupled superconductivity in atomically thin 2M-WS2; Nature Physics 2023, 19(1): 103-113;
  • Kelei Zhang,Cunming Liu,Fuqiang Huang,Chong Zheng,Wendeng Wang;Study of the electronic structure and photocatalytic activity of the BiOCl photocatalyst;Applied Catalysis B: Environmental 2006, 68: 125-129;
  • Chongyin Yang,Zhou Wang,Tianquan Lin,Hao Yin,Xujie Lü,Dongyun Wan,Tao Xu,Chong Zheng,Jianhua Lin,Fuqiang Huang,Xiaoming Xie,Mianheng Jiang;Core-shell nanostructured "black" rutile titania as excellent catalyst for hydrogen production enhanced by sulfur doping;Journal of the American Chemical Society, 2013,135(47):17831-17838;
  • Aihua Fang,Fuqiang Huang,Xiaoming Xie,Mianheng Jiang;Low-temperature rapid synthesis and superconductivity of Fe-based oxypnictide superconductors;Journal of the American Chemical Society 2010, 132(10):3260-3261;
  • Shuying Nong,Wujie Dong,Junwen Yin,Bowei Dong,Yue Lu,Xiaotao Yuan,Xin Wang,Kejun Bu,Mingyang Chen,Shangda Jiang,Limin Liu,Manling Sui,Fuqiang Huang;Well-Dispersed Ruthenium in Mesoporous Crystal TiO2 as an Advanced Electrocatalyst for Hydrogen Evolution Reaction;Journal of the American Chemical Society 2018, 140(17): 5719-5727;
  • Wujie Dong, Jijian Xu, Chao Wang, Yue Lu, Xiangye Liu, Xin Wang, Xiaotao Yuan, Zhe Wang, Tianquan Lin, Manling Sui, IWei Chen, Fuqiang Huang. A robust and conductive black tin oxide nanostructure makes efficient lithium-ion batteries possible; Advanced Materials 2017, 29, 1700136.