[NCKU][ICMB 2022] 分享業界電池技術及最近鋰電池產業狀況及展望

鍾獻慶(Hsien-Ching Chung)受主辦單位(國立成功大學 National Cheng Kung University)邀請，去ICMB 2022國際工作坊，分享業界電池技術及最近鋰電池產業狀況及展望。

演講主要內容及相關訊息

主題: 業界電池技術及最近鋰電池產業狀況及展望 (Engineering integrations, current applications, and outlook of Li-ion battery industry)

演講時間: 2022年2月24日 (星期四) 15:00~16:00

地點: 國立成功大學

演講行程表摘錄:

第一日行程表。

感謝

Prof. Ming-Fa Lin for the book chapter invitation and for inspiring H. C. Chung to study this topic.

Jung-Feng Jack Lin, Chairman of Super Double Power Technology Co., Ltd., Taiwan, for many valuable discussions, recommendations, information about ESSs in various scales, and real case examples.

H. C. Chung would like to thank the contributors to this article for their valuable discussions and recommendations, Hsiao-Wen Yang, Yen-Kai Lo, and An-De Andrew Chung.

The author (H. C. Chung) thanks Pei-Ju Chien for English discussions and corrections as well as Ming-Hui Chung, Su-Ming Chen, Lien-Kuei Chien, and Mi-Lee Kao for financial support.

This work was supported in part by Super Double Power Technology Co., Ltd., Taiwan, under the project “Development of Cloud-native Energy Management Systems for Medium-scale Energy Storage Systems ( https://doi.org/10.17605/OSF.IO/7FR9Z )” (Grand number: SDP-RD-PROJ-001-2020).

(FB link 2: https://www.facebook.com/hsienching.chung/posts/5346224822057110 )

(FB link 1: https://www.facebook.com/hsienching.chung/posts/5257728004240126 )

相關Po文

[NCKU][ICSG 2021] 分享業界鋰電池發展狀況及鋰電池電力特性

[NCKU][Hi-GEM][ICBM 2020] 分享業界電池技術及鋰電池產業發展狀況

[台灣電池協會][2018台日交流會] 磷酸鋰鐵電池模組失效模式分析 Failure mode and effects analysis of LFP battery module

[物理年會2017] 鍾獻慶演講

[物理年會2016] 鍾獻慶演講

[物理年會2015] 鍾獻慶演講

相關連結

ICMB 2022官網: https://sites.google.com/view/mflin-lab/home

ICMB2022官網(2022-01-30截圖)。

英文介紹:

The international workshop will be organized by the research team of Professor Ming-Fa Lin at the Department of Physics, NCKU. This workshop will be the bridge between many research groups from Taiwan, the US, and Vietnam. In particular, this will be a place for young researchers, postdocs, Ph.D. students, and master students to present their latest ideas and results.

Since the first discovery of graphene through mechanical exfoliation of a graphite surface. Other group IV systems have attracted a great deal of interest from theoretical and experimental scientists. Besides studying the intrinsic features of such systems in pristine cases, understanding the oxidation and hydrogenation of these systems has been critical to the success of all types of 2D materials, which are the cornerstones of modern nanomaterial technologies. For example, compared with graphene, graphene oxide exhibits a unique property in that its electrical conductivity and optical transparency are significantly dependent on the degree of oxidation. As for silicene, the previous results showed that the tunable band gap in different silicene buckling structures by controllable oxidation processes. Obviously, this opening silicene bandgap by oxidation is much more outstanding than those induced by the vertical electric field. The exciting results of the oxidation of graphene and silicene systems have paved the way for further studies in other group IV systems as germanene, stanene, plumbene in pristine cases or the functionalization of these systems. Furthermore, a similar manner can be applied to the cases of hydrogenation, halogenation, and alkalization.

This workshop focuses primarily on computational simulation and experimental research of emerging materials, quantum topological materials, electrode and electrolyte materials for ion-based batteries. Besides, attendees can learn knowledge, computational or simulation software skills, and how to use new technologies.

We cordially invite all the scientific community to participate in this conference, presenting orals related to any proposed topics.