Professor Kenichiro Itami

Professor Kenichiro Itami

Department of Chemistry

Nagoya University, Japan

Abstract

Catalyst-enabled molecular nanocarbon synthesis

Molecular nanocarbons including nanographenes and polycyclic aromatic hydrocarbons are among the most important classes of compounds, with potential applications in nearly all areas of science and technology. Typically, molecular nanocarbons are structurally simple assemblies of benzene-based hexagons and one can imaginarily build up a range of structures with ease and the theoretically possible number of molecular nanocarbon structures (planar and nonplanar) is extraordinary. However, most of these molecules remain synthetically out of reach due to a lack of synthetic methods, and their potentially huge structure-property diversity has not been fully exploited. This lecture will highlight our programmable, diversity-oriented and growth-from-template synthesis methods for nanographenes based on annulative π-extension (APEX) concept. These methods allow accessing a range of previously untapped planar and nonplanar molecular nanocarbons such as warped nanographenes and infinitene.

Kenichiro Itami

Kenichiro Itami studied chemistry at Kyoto University, Japan, and completed his PhD in 1998 with Prof. Yoshihiko Ito. After being Assistant Professor at Kyoto University, he moved to Nagoya University as an Associate Professor in 2005, where he was promoted to Full Professor in 2008. In 2012 he created the Institute of Transformative Bio-Molecules (ITbM) in Nagoya University, serving as the principal investigator (also the founding director until March 2022). During 2013-2020, he was the Research Director of JST-ERATO Itami Molecular Nanocarbon Project. Since 2019, he has also been the Research Fellow at the Institute of Chemistry, Academia Sinica, Taiwan. The work of Ken Itami has centered on catalyst-enabling synthetic chemistry with broad directions including molecular nanocarbon materials, C-H activation catalysts, medicinal chemistry, and chemical biology. The representative achievement is the creation of a range of structurally uniform nanocarbons of fundamental and practical importance by bottom-up chemical synthesis. He is recognized as Highly Cited Researchers (Clarivate Analytics) 5 years in a row since 2017, with an h-index of 83.

 

Start date
Wednesday, March 15, 2023, 4 p.m.
End date
Wednesday, March 15, 2023, 5 p.m.
Location

Special Location: 231 Smith Hall

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