Bi Hui is currently a researcher in the State Key Laboratory of High Performance Ceramics and Ultrastructure, Shanghai Institute of ceramics, Chinese Academy of Science. In October 2022, he was selected as the Young Academic Leader of Shanghai, in December 2020, he was selected as the Outstanding Member of the Youth Innovation Promotion Association of the Chinese Academy of Sciences, and in August 2016, he was selected as the Young Scientist of Shanghai. Innovatively proposing a new mechanism of "surface collaborative energy storage", developing key new materials for extremely high energy storage/rapid discharge, solving the problem of energy storage devices being unable to balance high energy and high power, achieving innovative breakthroughs in the performance of high power and high energy devices that integrate the advantages of "capacitor+battery" energy storage, and achieving the highest international level of leading high-power chemical power sources in key core indicators of devices.

Main research directions:

1. Structural regulation of graphene and three-dimensional graphene construction

2. Low dimensional new energy material design and device preparation

3. Preparation of new energy materials and high-power energy storage applications

Main research achievements

Main projects undertaken in recent years (limited to 5):

1. Shanghai Youth Academic Leader Project "Ultra High Power Energy Storage Devices and Power Systems", 2022.10-2025.9

2. Excellent Member Talent Project of the Chinese Academy of Sciences Youth Promotion Association "New Energy Storage Device Design and High Efficiency Power Supply System", 2021.1-2023.12

3. Shanghai Youth Science and Technology Rising Star Program "Construction of Ultra Light and Ultra Strong 3D Graphene and Research on Flexible Energy Storage", 2016.04-2019.03

4. General Project of the National Natural Science Foundation of China "Preparation of 3D Graphene Composite Electrode Materials and Flexible Devices", 2020.01-2023.12

5. General Project of the National Natural Science Foundation of China "Construction and Physical Properties Research of Novel Covalent Bond Connected Superstrong Graphene Porous Materials", 2017.01-2020.12

Representative works in recent years (limited to 5):

1. Peng Wang, Xiaohuan Qi, Wei Zhao, Hui Bi*, Fuqiang Huang,* Nitrogen-doped hierarchical few-layered porous carbon for efficient electrochemical energy storage, Carbon Energy, 2021, 3, 349.

2. Yuan Cheng, Hui Bi*, Xiangli Che, Wei Zhao, Dezheng Li, Fuqiang Huang,* Rapid growth of large-area single-crystal grapheme film by seamless stitching using resolidified copper foil on a molybdenum substrate, Journal of Materials and Chemistry A, 2019, 7, 18373.

3. Hui Bi, Tianquan Lin, Feng Xu, Yufeng Tang, Zhanqiang Liu, Fuquiang Huang,* New graphene form of nanoporous nonolith for excellent energy storage, Nano Letters, 2016, 16, 349.

4. Hui Bi, I-Wei. Chen, Tianquan Lin, Fuqiang Huang,* A new tubular graphene form of a tetrahedrally connected cellular structure, Advanced Materials, 2015, 27, 5943.

5. Hui Bi, Fuqiang Huang*, Jun Liang, Xiaoming Xie, Mianheng Jiang, Transparent conductive graphene films synthesized by ambient pressure chemical vapor deposition used as the front electrode of CdTe solar cells, Advaned Materials, 2011, 23, 3202.

Recent authorized patents (optional, limited to 5):

1. A composite positive electrode material and its preparation method and application (Patent number: ZL201910403900.3, Authorization date: August 14, 2020)

2. A graphene/basalt composite material and its preparation method (Patent number: ZL20151005650. X, Authorization date: February 26, 2019)

3. 3D graphene macroscopic material and its preparation method (Patent number: ZL20141070767.9, Authorization date: August 24, 2018)

4. A three-dimensional graphene material with a multi-level structure of micropores, mesopores, and macropores, and its preparation method and application (Patent number: ZL201510496080.9, Authorization date: September 28, 2018)

5. A high conductivity, high thermal conductivity, and flexible three-dimensional graphene material and preparation method (Patent number: ZL201410143857.9, Authorization date: April 12, 2017)