Skip to main content
placeholder image

Functional Two-dimensional Materials for Photocatalysis

Grant


Scheme


  • Future Fellowships

Abstract


  • This project aims to explore and tailor two-dimensional materials and heterostructures by new synthetic strategies, and to develop a comprehensive understanding of the effects of crystalline and electronic structures on photocatalysis at the atomic level. We expect to provide deep insight into catalytic mechanisms by bridging the current gap between realistic systems and theoretical calculations. An expected outcome is new approaches to precise control structural and electronic properties of two-dimensional materials at the atomic level for diverse photocatalytic applications. This is an important scientific frontier and has great prospects for broad scientific applications, such as clean hydrogen energy generation and carbon sequestration.

Date/time Interval


  • 2019 - 2023

Contributor


Sponsor Award Id


  • FT180100585

Local Award Id


  • 126226

Contributor


Scheme


  • Future Fellowships

Abstract


  • This project aims to explore and tailor two-dimensional materials and heterostructures by new synthetic strategies, and to develop a comprehensive understanding of the effects of crystalline and electronic structures on photocatalysis at the atomic level. We expect to provide deep insight into catalytic mechanisms by bridging the current gap between realistic systems and theoretical calculations. An expected outcome is new approaches to precise control structural and electronic properties of two-dimensional materials at the atomic level for diverse photocatalytic applications. This is an important scientific frontier and has great prospects for broad scientific applications, such as clean hydrogen energy generation and carbon sequestration.

Date/time Interval


  • 2019 - 2023

Contributor


Sponsor Award Id


  • FT180100585

Local Award Id


  • 126226

Contributor