Professor | Yonggang Wang | Asia Growth Partners

Name	Yonggang Wang
Contact Information	ygw@pku.edu.cn
Language ability	Chinese, English
Province	Beijing

Name

Yonggang Wang

Contact Information

ygw@pku.edu.cn

Language ability

Chinese, English

Province

Beijing

University/Lab Affiliation and Title	Peking University
Faculty	Materials Science and Engineering
Academic Background & Achievements	2001-2005 Bachelor: Nankai University, School of Chemistry 2005-2010 PhD: Institute of Physical and Chemical Technology, Chinese Academy of Sciences
Work Experience	2010-2013 - Peking University, College of Chemistry and Molecular Engineering - Postdoctoral Researcher 2013-2017 - University of Nevada, Las Vegas - Postdoctoral Researcher Argonne National Laboratory - Visiting Postdoctoral Researcher 2017-2022 - Beijing Institute of High Pressure Science - Researcher, Doctoral Supervisor 2022-Present - Peking University, School of Materials Science and Engineering - Assistant Professor, Researcher, Doctoral Supervisor

University/Lab Affiliation and Title

Peking University

Faculty

Materials Science and Engineering

Academic Background & Achievements

2001-2005 Bachelor: Nankai University, School of Chemistry
2005-2010 PhD: Institute of Physical and Chemical Technology, Chinese Academy of Sciences

Work Experience

2010-2013 - Peking University, College of Chemistry and Molecular Engineering - Postdoctoral Researcher
2013-2017 - University of Nevada, Las Vegas - Postdoctoral Researcher
Argonne National Laboratory - Visiting Postdoctoral Researcher
2017-2022 - Beijing Institute of High Pressure Science - Researcher, Doctoral Supervisor
2022-Present - Peking University, School of Materials Science and Engineering - Assistant Professor, Researcher, Doctoral Supervisor

Areas of Focus	In-situ high-pressure characterization techniques Temperature/pressure-induced polymorphic transformations and materials Phase change energy storage and phase change storage materials
Publications	Pressure-Driven Two-Step Second-Harmonic-Generation Switching in BiOIO3, Y. Wang et al., 2022 A New Concept of Radiation Detection Based on a Fluorochromic and Piezochromic Nanocluster, Y. Wang et al., 2022 Reversible Mechanically Induced On–Off Photoluminescence in Hybrid Metal Halides, Y. Wang et al., 2021 Antiperovskites with exceptional functionalities, Y. Wang et al., 2020 Pressure-driven reversible switching between n- and p-type conduction in chalcopyrite CuFeS2, Y. Wang et al., 2019 Emergent superconductivity in an iron-based honeycomb lattice initiated by pressure-driven spin-crossover, Y. Wang et al., 2018 Pressure-driven cooperative spin-crossover, large volume collapse and semiconductor-to-metal transition in manganese(II) honeycomb lattices, Y. Wang et al., 2016 Reversible switching between pressure-induced amorphization and thermal-driven recrystallization in VO2(B) nanosheets, Y. Wang et al., 2016 Giant pressure-driven lattice collapse coupled with intermetallic bonding and spin-state transition in manganese chalcogenides, Y. Wang et al., 2016 Pressure-induced phase transformation, reversible amorphization, and anomalous visible light response in organolead bromide, Y. Wang et al., 2015

Areas of Focus

In-situ high-pressure characterization techniques
Temperature/pressure-induced polymorphic transformations and materials
Phase change energy storage and phase change storage materials

Publications

Pressure-Driven Two-Step Second-Harmonic-Generation Switching in BiOIO3, Y. Wang et al., 2022
A New Concept of Radiation Detection Based on a Fluorochromic and Piezochromic Nanocluster, Y. Wang et al., 2022
Reversible Mechanically Induced On–Off Photoluminescence in Hybrid Metal Halides, Y. Wang et al., 2021
Antiperovskites with exceptional functionalities, Y. Wang et al., 2020
Pressure-driven reversible switching between n- and p-type conduction in chalcopyrite CuFeS2, Y. Wang et al., 2019
Emergent superconductivity in an iron-based honeycomb lattice initiated by pressure-driven spin-crossover, Y. Wang et al., 2018
Pressure-driven cooperative spin-crossover, large volume collapse and semiconductor-to-metal transition in manganese(II) honeycomb lattices, Y. Wang et al., 2016
Reversible switching between pressure-induced amorphization and thermal-driven recrystallization in VO2(B) nanosheets, Y. Wang et al., 2016
Giant pressure-driven lattice collapse coupled with intermetallic bonding and spin-state transition in manganese chalcogenides, Y. Wang et al., 2016
Pressure-induced phase transformation, reversible amorphization, and anomalous visible light response in organolead bromide, Y. Wang et al., 2015

High-Pressure Characterization In-Situ Polymorphic Transformation Temperature Pressure Materials Energy Storage Phase Change

Yaoyu Ren - Tsinghua University

Jianbo Liu - Tsinghua University

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