Christine Luscombe | |
---|---|
Born | Christine Keiko Luscombe |
Alma mater | University of Cambridge (BA, PhD) |
Awards |
NSF CAREER Award Sloan Research Fellowship |
Scientific career | |
Fields |
Polymer chemistry Organic electronics Organic photovoltaics [1] |
Institutions |
University of Washington University of California, Berkeley Okinawa Institute of Science and Technology University of Cambridge |
Thesis | Surface modifications using supercritical carbon dioxide (2004) |
Doctoral advisor | Andrew Bruce Holmes |
Website |
groups |
Christine Luscombe FRSC is a Japanese-British chemist who is a professor at the Okinawa Institute of Science and Technology. [2] Her research investigates polymer chemistry, organic electronics, organic photovoltaics [1] and the synthesis of novel materials for processable electronics. She serves on the editorial boards of Macromolecules, Advanced Functional Materials, the Annual Review of Materials Research and ACS Applied Materials & Interfaces.
Luscombe was born and raised in Kobe, Japan. [3] She became interested in chemistry at high school, and grew up surrounded by electronic devices developed by Sony and Panasonic. [4] She was an undergraduate student at the University of Cambridge, where she specialised in chemistry. [3] She eventually[ when?] joined the group of Andrew Bruce Holmes, where she worked on polymer synthesis and earned her PhD in 2004. [5]
After her PhD, Luscombe was awarded a junior research fellowship at Trinity College, Cambridge.[ when?] She simultaneously joined the group of Jean Fréchet at the University of California, Berkeley. [3] After two years in California, Luscombe was made an Assistant Professor at the University of Washington. In her early career she was awarded an National Science Foundation CAREER Award, a DARPA Young Faculty Award and a Sloan Research Fellowship. [3] She was made an Associate Professor in 2011 and the Robert J. Cambell Development Professor in 2017.[ citation needed] Her research considers the synthesis of conjugated small molecules and polymers for photovoltaics. She is particularly interested in the identification of structure-property relationships and achieving a better understanding of how microstructure impacts optoelectronic properties. [6] She has particularly focused on the rational design of high mobility polymers. [7] She has contributed to International Union of Pure and Applied Chemistry (IUPAC) initiatives on polymer terminology and polymer education. [8] [4]
In 2020, Luscombe joined the Okinawa Institute of Science and Technology. [9] In an interview with Chemical & Engineering News, Luscombe says that she began to feel unwelcome in the United States when Donald Trump instigated Executive Order 13769, the so-called Muslim travel ban. [10] She said that she chose to leave the United States due to the growing racism and mismanagement of the public health response to the COVID-19 pandemic. [10]
Her awards and honors include:
Her publications [1] include:
{{
cite book}}
: CS1 maint: multiple names: authors list (
link) [
ISBN missing]
Christine Luscombe | |
---|---|
Born | Christine Keiko Luscombe |
Alma mater | University of Cambridge (BA, PhD) |
Awards |
NSF CAREER Award Sloan Research Fellowship |
Scientific career | |
Fields |
Polymer chemistry Organic electronics Organic photovoltaics [1] |
Institutions |
University of Washington University of California, Berkeley Okinawa Institute of Science and Technology University of Cambridge |
Thesis | Surface modifications using supercritical carbon dioxide (2004) |
Doctoral advisor | Andrew Bruce Holmes |
Website |
groups |
Christine Luscombe FRSC is a Japanese-British chemist who is a professor at the Okinawa Institute of Science and Technology. [2] Her research investigates polymer chemistry, organic electronics, organic photovoltaics [1] and the synthesis of novel materials for processable electronics. She serves on the editorial boards of Macromolecules, Advanced Functional Materials, the Annual Review of Materials Research and ACS Applied Materials & Interfaces.
Luscombe was born and raised in Kobe, Japan. [3] She became interested in chemistry at high school, and grew up surrounded by electronic devices developed by Sony and Panasonic. [4] She was an undergraduate student at the University of Cambridge, where she specialised in chemistry. [3] She eventually[ when?] joined the group of Andrew Bruce Holmes, where she worked on polymer synthesis and earned her PhD in 2004. [5]
After her PhD, Luscombe was awarded a junior research fellowship at Trinity College, Cambridge.[ when?] She simultaneously joined the group of Jean Fréchet at the University of California, Berkeley. [3] After two years in California, Luscombe was made an Assistant Professor at the University of Washington. In her early career she was awarded an National Science Foundation CAREER Award, a DARPA Young Faculty Award and a Sloan Research Fellowship. [3] She was made an Associate Professor in 2011 and the Robert J. Cambell Development Professor in 2017.[ citation needed] Her research considers the synthesis of conjugated small molecules and polymers for photovoltaics. She is particularly interested in the identification of structure-property relationships and achieving a better understanding of how microstructure impacts optoelectronic properties. [6] She has particularly focused on the rational design of high mobility polymers. [7] She has contributed to International Union of Pure and Applied Chemistry (IUPAC) initiatives on polymer terminology and polymer education. [8] [4]
In 2020, Luscombe joined the Okinawa Institute of Science and Technology. [9] In an interview with Chemical & Engineering News, Luscombe says that she began to feel unwelcome in the United States when Donald Trump instigated Executive Order 13769, the so-called Muslim travel ban. [10] She said that she chose to leave the United States due to the growing racism and mismanagement of the public health response to the COVID-19 pandemic. [10]
Her awards and honors include:
Her publications [1] include:
{{
cite book}}
: CS1 maint: multiple names: authors list (
link) [
ISBN missing]