Wang Jinliang, Professor and doctoral supervisor, Institute of Organic Chemistry and Polymer Chemistry, College of Chemistry and Chemical Engineering. He graduated from the School of Chemistry and Molecular Engineering of Peking University in 2008, and won the National Outstanding doctoral dissertation nomination Award in 2010. In 2013, he was selected into the national Overseas high-level talent youth Project support plan. He has been engaged in the chemistry research of organic and polymer photovoltaic energy conversion materials for a long time, and has carried out special research work in the efficient synthesis of monodisperse polyfluorinated photovoltaic donor materials and high efficiency selenophene acceptor materials and device performance regulation. He has presided over the National Natural Science Foundation Youth and surface project, the National Overseas high-level Talent Youth project, and the Beijing Natural Science Foundation surface project. So far, he has published more than 90 SCI papers in international high-level academic journals such as J. Am. Chem. Soc., which have been cited more than 7,000 times. In 2012, he was selected into the Beijing Institute of Technology Outstanding Young and middle-aged Teachers Development Support Program. In 2016, he was awarded as the excellent master's degree thesis advisor of Beijing Institute of Technology, selected as the first batch of Beijing Institute of Technology Professor in 2016, and selected as the first batch of Beijing Institute of Technology Special Young scholars in 2018. In 2021, he was awarded as Beijing Excellent undergraduate thesis Advisor. In 2022, he was honored by "Division Edge North Li" to celebrate the 38th Teacher's Day teaching and educating humanity. He has been selected as a senior member of the Chinese Chemical Society and the young editorial board of the international journals SusMat, Battery Energy and EcoEnergy, and the English edition editorial board of the Journal of Beijing Institute of Technology.
The aim of this research group is to develop new organic optoelectronic functional materials. We welcome those who have a good academic background in organic or polymer chemical synthesis or material device characterization and are interested in this research direction.
We plan to recruit the following types of relevant personnel:
1) Enroll a number of master's students (exempted or admitted for postgraduate study) and doctoral students (applied for examination system) every year.
2) Recruit high-level young talents such as special researchers and special associate researchers (starting from 360,000 annual salary).
3) Recruit a number of Teli postdocs and team postdocs (starting from 350,000 annually). Those with excellent results during the station will be prefered to teach at the university, and other policies shall refer to the post-doctoral management measures of Beijing Institute of Technology.

Research field: The construction and properties of organic photoelectric functional molecules are frontier cross-research fields, which have extremely important scientific significance and application prospects. Professor Wang Jinliang is mainly engaged in the research on the chemistry of organic and polymer photoelectric energy conversion materials. It mainly includes: the creation of organic and polymer photoelectric energy conversion functional material molecules, the precise control of photophysical properties, and the systematic study of the structure-activity relationship of various energy conversion devices.
Research Direction :
1. Synthesis of conjugated oligomers and polymer photovoltaic acceptor materials and characterization of organic solar cell devices.
2. Synthesis and properties of N-type organic thermoelectric materials.
3. Characterization and application of organic solar cell devices.
4. Prediction and screening of organic solar cell materials based on machine learning assistance.

1999.09-2003.07 School of Chemistry and Molecular Engineering, Peking University, Bachelor of Science in Chemistry 2003.09-2008.07 School of Chemistry and Molecular Engineering, Peking University, Major in Organic Chemistry, Doctor of Science (Supervisor: Professor Pei Jian)

2008.10-2011.02 Postdoctoral Research Assistant, Department of Polymer Science, Akron University, USA
2011.03-2012.10 Postdoctoral Research Assistant, Department of Chemistry, University of North Carolina, Chapel Hill, USA
2013.03-2016.06 School of Chemistry, Beijing Institute of Technology, Professor, Doctoral Supervisor
2016.06-present School of Chemistry and Chemical Engineering, Beijing Institute of Technology, Professor, Doctoral Supervisor

Monodisperse organic conjugated macromolecular functional materials are rigidly conjugated macromolecular materials with definite structure and molecular weight between small molecules and polymers, which are expected to make up the "long" and "short" in the two types of materials. Professor Wang Jinliang carried out independent scientific research relying on platforms such as Beijing Key Laboratory of Photoelectric Conversion Materials. The core of the research is the synthesis and functionalization of monodisperse organic conjugated macromolecule photoconversion functional materials. Systematic studies have been made on the efficient synthesis, morphology and device performance control of a variety of monodisperse macromolecular materials, such as characteristic IDT/IDTT core-oriented wide-band gap monodisperse conjugated macromolecular donor materials, characteristic selenophen core-oriented narrow band gap monodisperse macromolecular acceptor materials, and characteristic electron-lacking end-group oriented monodisperse N-type semiconductor materials. Has made a series of very distinctive scientific research results. Professor Wang Jinliang has published more than 70 high-level academic papers as corresponding author since he independently carried out scientific research in BTECH, including J. Am. Chem. Soc. ESI highly cited), Adv. Mater. (1 paper), Angew.chem.in.ed. (4 papers, 1 paper with ESI highly cited), Joule (1 paper with ESI highly cited), Energy Environ.Sci. (3 papers, 1 paper with ESI highly cited). 2 papers were ESI highly cited), ACS Energy Lett (4 papers), Adv. Funct. Mater. (4 papers, 2 papers were ESI highly cited.) Research work was conducted by Chem. Rev., Nat. Mater., Nat. Commun., Energy Environ. Sci., J. Am. Chem. Soc. And other top publications many positive references. All papers have been cited more than 7,000 times.
Representative papers (2015-present) :
(1)Jin-Liang Wang*, Kai-Kai Liu, Jun Yan, Zhuo Wu, Feng Liu, Fei Xiao, Zheng-Feng Chang, Hong-Bin Wu*, Yong Cao, Thomas P. Russell, Series of Multifluorine Substituted Oligomers for Organic Solar Cells with Efficiency over 9% and Fill Factor of 0.77 by Combination Thermal and Solvent Vapor Annealing, Journal of the American Chemical Society, 2016, 138, 7687-7697. (ESI highly cited papers)
(2)Can Yang, Qiaoshi An*, Mengyun Jiang, Xiaoming Ma, Asif Mahmood, Heng Zhang, Xin Zhao, Hong-Fu Zhi, Min Hun Jee, Han Young Woo, Xilin Liao, Dan Deng*, Zhixiang Wei*, Jin-Liang Wang*, Optimized Crystal Framework by Asymmetric Core Isomerization in Selenium-Substituted Acceptor for Efficient Binary Organic Solar Cells, Angewandte Chemie International Edition, 2023, 62, e202313016.
(3)Xin Zhao, Qiaoshi An,* Heng Zhang, Can Yang, Asif Mahmood, Mengyun Jiang, Min Hun Jee, Bin Fu, Shiyu Tian, Han Young Woo, Yapei Wang, and Jin-Liang Wang * Double Asymmetric Core Optimizes Crystal Packing to Enable Selenophene-based Acceptor with Over 18% Efficiency in Binary Organic Solar Cells, Angewandte Chemie International Edition, 2023, 62, e202216340.
(4)Lu Yan, Heng Zhang, Qiaoshi An,* Mengyun Jiang, Asif Mahmood, Min Hun Jee, Hai-Rui Bai, Hong-Fu Zhi, Shaowen Zhang, Han Young Woo, Jin-Liang Wang,* Regioisomer-Free Difluoro-Monochloro Terminal-based Hexa-Halogenated Acceptor with Optimized Crystal Packing for Efficient Binary Organic Solar Cells, Angewandte Chemie International Edition, 2022, 61, e202209454.
(5)Can Yang, Qiaoshi An,*Hai-Rui Bai,Hong-Fu Zhi, Hwa Sook Ryu, Asif Mahmood, Xin Zhao, Shaowen Zhang, Han Young Woo and Jin-Liang Wang*, Synergistic Strategy of Manipulating the Number of Selenophene Units and Dissymmetric Central Core of Small Molecular Acceptors Enables Polymer Solar Cells with 17.5% Efficiency, Angewandte Chemie International Edition, 2021, 60, 19241-19252. (ESI highly cited papers)
(6)Chucheng Yang, Mengyun Jiang, Shanshan Wang, Bao Zhang, Peng Mao, Han Young Woo, Fujun Zhang,* Jin-liang Wang,* Qiaoshi An,* Hot-casting Strategy Empowers High-Boiling Solvent-Processed Organic Solar Cells with Over 18.5% Efficiency, Advanced Materials, 2024, 36, 2305356.
(7)Lai Wang, Qiaoshi An,* Lu Yan, Hai-Rui Bai, Mengyun Jiang, Asif Mahmood, Can Yang, Hongfu Zhi, and Jin-Liang Wang*, Non-fullerene acceptors with hetero-dihalogenated terminals induce significant difference in single crystallography and enable binary organic solar cells with 17.5% efficiency, Energy & Environmental Science, 2022, 15, 320-333.
(8)Asif Mahmood, Jin-Liang Wang*, Machine learning for high performance organic solar cells: current scenario and future prospects, Energy & Environmental Science, 2021, 14, 90-105. (ESI highly cited papers)
(9)Mengyun Jiang, Hairui Bai, Hongfu Zhi, Lu Yan, Han Young Woo, Lijia Tong, Jinliang Wang,* Fujun Zhang,* and Qiaoshi An*, Rational compatibility in a ternary matrix enables all-small-molecule organic solar cells with over 16% efficiency, Energy & Environmental Science, 2021, 14, 3945-3953. (ESI highly cited papers)
(10)Xin Song, Nicola Gasparini*, Masrur Morshed Nahid, Sri Harish Kumar Peleti, Jin-Liang Wang*, Harald Ade, Derya Baran*, Dual Sensitizer and Processing-Aid Behavior of Donor Enables Efficient Ternary Organic Solar Cells, Joule, 2019, 3, 846-857. (ESI highly cited papers)