Can Li: A Career in Catalysis

Zili Wu; Qihua Yang; Yan Liu; Boyu Zhang; Rengui Li; Wangyin Wang; Jijie Wang; Kazunari Domen; Feng Wang; Fengtao Fan

doi:10.1021/acscatal.1c06034

Can Li: A Career in Catalysis

Zili Wu
, Qihua Yang
, Yan Liu
, Boyu Zhang
, Rengui Li
, Wangyin Wang
, Jijie Wang
, Kazunari Domen
, Feng Wang
, Fengtao Fan

Surface Chemistry & Catalysis Group

Research output: Contribution to journal › Article › peer-review

21 Scopus citations

Abstract

Prof. Can Li is distinguished for his seminal achievements in fundamental and applied researches in catalysis, especially in advancing the characterization of catalysts and catalytic reactions related to solar energy conversion and fine chemical synthesis. The scope of his research is wide ranging, and he is leading some of the fields. This account highlights his major scientific achievements in advancing the fundamental sciences of characterizing catalysts and understanding the mechanisms of catalytic reactions by developing in situ spectroscopic techniques (e.g., infrared (IR), ultraviolet (UV), Raman, space- and time-resolved spectroscopies and photoelectric imaging), and applying the obtained knowledge in the rational design and synthesis of catalysts for practical applications in photocatalytic, electrocatalytic and photoelectrocatalytic water splitting and CO2 reduction, chiral synthesis in nanoreactors and ultradeep desulfurization of fuels, and fine chemical synthesis. In particular, his demonstration of the kiloton scale solar fuel production project will be introduced as a successful model for converting fundamental science into practical and impactful applications to convert CO2 and water into solar fuels. This account also highlights his services to the catalysis communities and international collaborations for promoting catalysis science worldwide.

Original language	English
Pages (from-to)	3063-3082
Number of pages	20
Journal	ACS Catalysis
Volume	12
Issue number	5
DOIs	https://doi.org/10.1021/acscatal.1c06034
State	Published - Mar 4 2022

Funding

Can Li has also made great efforts to promote collaboration between China and other countries in catalysis science and technology, including the Programme Strategic Scientific Alliances between China and The Netherlands, led by Prof. Rutger van Santen; A3 Foresight Program between China, Japan (led by Prof. Kazunari. Domen), and Korea (led by Prof. Jae Sung Lee); and a joint research program between the Dalian Institute of Chemical Physics and Liverpool University, supported by the National Natural Science Foundation of China and the British Council. Can Li is also a pioneer in promoting the cooperation research between BP and the Chinese Academy of Sciences. He was appointed to the Energy Innovation Laboratory (EIL) director between BP and DICP, since 2010.

Keywords

artificial photosynthesis
asymmetric catalysis
emulsion catalysis
heterogeneous catalysts
in situ and operando spectroscopy
liquid sunshine
photocatalytic water splitting

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10.1021/acscatal.1c06034

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abstract = "Prof. Can Li is distinguished for his seminal achievements in fundamental and applied researches in catalysis, especially in advancing the characterization of catalysts and catalytic reactions related to solar energy conversion and fine chemical synthesis. The scope of his research is wide ranging, and he is leading some of the fields. This account highlights his major scientific achievements in advancing the fundamental sciences of characterizing catalysts and understanding the mechanisms of catalytic reactions by developing in situ spectroscopic techniques (e.g., infrared (IR), ultraviolet (UV), Raman, space- and time-resolved spectroscopies and photoelectric imaging), and applying the obtained knowledge in the rational design and synthesis of catalysts for practical applications in photocatalytic, electrocatalytic and photoelectrocatalytic water splitting and CO2 reduction, chiral synthesis in nanoreactors and ultradeep desulfurization of fuels, and fine chemical synthesis. In particular, his demonstration of the kiloton scale solar fuel production project will be introduced as a successful model for converting fundamental science into practical and impactful applications to convert CO2 and water into solar fuels. This account also highlights his services to the catalysis communities and international collaborations for promoting catalysis science worldwide.",

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author = "Zili Wu and Qihua Yang and Yan Liu and Boyu Zhang and Rengui Li and Wangyin Wang and Jijie Wang and Kazunari Domen and Feng Wang and Fengtao Fan",

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AU - Zhang, Boyu

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AU - Wang, Jijie

AU - Domen, Kazunari

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AB - Prof. Can Li is distinguished for his seminal achievements in fundamental and applied researches in catalysis, especially in advancing the characterization of catalysts and catalytic reactions related to solar energy conversion and fine chemical synthesis. The scope of his research is wide ranging, and he is leading some of the fields. This account highlights his major scientific achievements in advancing the fundamental sciences of characterizing catalysts and understanding the mechanisms of catalytic reactions by developing in situ spectroscopic techniques (e.g., infrared (IR), ultraviolet (UV), Raman, space- and time-resolved spectroscopies and photoelectric imaging), and applying the obtained knowledge in the rational design and synthesis of catalysts for practical applications in photocatalytic, electrocatalytic and photoelectrocatalytic water splitting and CO2 reduction, chiral synthesis in nanoreactors and ultradeep desulfurization of fuels, and fine chemical synthesis. In particular, his demonstration of the kiloton scale solar fuel production project will be introduced as a successful model for converting fundamental science into practical and impactful applications to convert CO2 and water into solar fuels. This account also highlights his services to the catalysis communities and international collaborations for promoting catalysis science worldwide.

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KW - heterogeneous catalysts

KW - in situ and operando spectroscopy

KW - liquid sunshine

KW - photocatalytic water splitting

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Can Li: A Career in Catalysis

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