新闻与活动 活动信息

西湖工程讲座系列第53期 | Feng Ding 丁峰: Theory Leads Materials Manufacturing

时间

2023年9月22日(周五)
15:30-17:00

地点

西湖大学云谷校区E10-205

主持

西湖大学工学院 师恩政 博士

受众

全体师生

分类

学术与研究

西湖工程讲座系列第53期 | Feng Ding 丁峰: Theory Leads Materials Manufacturing

西湖工程讲座系列第53期  | Feng Ding 丁峰: Theory Leads Materials Manufacturing

时间:2023年9月22日(周五) 15:30-17:00

Time: 15:30-17:00, Friday, September 22, 2023

地点西湖大学云谷校区E10-205

Venue: E10-205, Yungu Campus

主持人: 西湖大学工学院 师恩政 博士

Host: Dr. Enzheng Shi, Assistant Professor, Westlake University

语言:英文

Language: English

主讲嘉宾/Speaker:

Prof. Feng Ding丁峰

Chair Professor

Shenzhen Institute of Advanced Technology

主讲人简介/Biography:

Prof. Feng Ding received his BS, MS and PhD degrees from Huazhong University of Science and Technology, Fudan University and Nanjing University in 1993, 1996 and 2002, respectively. Then he has worked in Gothenburg University, Sweden, Rice University, USA, Hong Kong Polytechnic University, Hong Kong. From 2017-2022, he was a distinguished professor of Ulsan National Institute of Science and Technology (UNIST), South Korea, where he received support of ~1.5 million USD per year from Institute of Basic Science (IBS) of South Korea. Now he is a Chair Professor of Shenzhen Institute of Advanced Technology (深圳理工大学). Prof. Ding’s research group was focused on the development of various computational methods for exploring the kinetics of materials; theoretical explorations of various carbon materials and 2D materials. Now his research group is focusing “AI for Materials Science”, especially, especially use AI-based computational technology to accelerate materials design and manufacturing.

Prof. Ding coauthored more than 350 SCI papers in leading journals of natural science, including 8 in Nature/Science and ~ 30 in N/S sister journals. These publications were cited by > 22,000 times (Google Scholar).

讲座摘要/Abstract:

So far, although we have explored the theory of material growth for more than 70 years, material manufacturing is still very empirical. And the cycle of a new material’s development of up to 20-30 years, or even longer. To reduce the ultralong cycles of new materials’ developments, in the past 20 years, our research group has been focused on developing atomic-scale theories that can be used to guide materials manufacturing. In this seminar, I will introduce a series of landmark theoretical achievements of our group in the growth mechanism of low-dimensional materials, including:

1.The development of multiscale computational approaches that can be used to guide experimental design.

2.Our understanding of the growth mechanism of carbon nanotubes towards the controlled synthesis of carbon nanotubes.

3.Our understanding of the growth mechanism of two-dimensional materials and the synthesis of large single crystals of two-dimensional materials.

Finally, I will introduce the possibilities of theory-guided-manufacturing of some key materials related to modern core technologies, such as single crystal silicon, GaN, SiC, diamond, etc.

讲座联系人/Contact:

工学院朱云云 zhuyunyun@westlake.edu.cn