Concepts and principles of self-n-doping in perylene diimide chromophores for applications in biochemistry, energy harvesting, energy storage, and catalysis
D Powell, L Whittaker-Brooks - Materials Horizons, 2022 - pubs.rsc.org
Self-doping is an essential method of increasing carrier concentrations in organic
electronics that eliminates the need to tailor host—dopant miscibility, a necessary step when …
electronics that eliminates the need to tailor host—dopant miscibility, a necessary step when …
Concepts and principles of self-n-doping in perylene diimide chromophores for applications in biochemistry, energy harvesting, energy storage, and catalysis
D Powell, L Whittaker-Brooks - Materials horizons, 2022 - pubmed.ncbi.nlm.nih.gov
Self-doping is an essential method of increasing carrier concentrations in organic
electronics that eliminates the need to tailor host-dopant miscibility, a necessary step when …
electronics that eliminates the need to tailor host-dopant miscibility, a necessary step when …
Concepts and principles of self-n-doping in perylene diimide chromophores for applications in biochemistry, energy harvesting, energy storage, and catalysis
D Powell, L Whittaker-Brooks - Materials Horizons, 2022 - par.nsf.gov
Self-doping is an essential method of increasing carrier concentrations in organic
electronics that eliminates the need to tailor host—dopant miscibility, a necessary step when …
electronics that eliminates the need to tailor host—dopant miscibility, a necessary step when …
Concepts and principles of self-n-doping in perylene diimide chromophores for applications in biochemistry, energy harvesting, energy storage, and catalysis
D Powell, L Whittaker-Brooksl - STATEMENT OF …, 2022 - search.proquest.com
Concepts and principles of self-n-doping in perylene diimide chromophores for applications
in biochemistry, energy harvesting, energy storage, and catalysis Page 13 CHAPTER 1 …
in biochemistry, energy harvesting, energy storage, and catalysis Page 13 CHAPTER 1 …
Concepts and principles of self-n-doping in perylene diimide chromophores for applications in biochemistry, energy harvesting, energy storage, and catalysis.
D Powell, L Whittaker-Brooks - Materials Horizons, 2022 - europepmc.org
Self-doping is an essential method of increasing carrier concentrations in organic
electronics that eliminates the need to tailor host-dopant miscibility, a necessary step when …
electronics that eliminates the need to tailor host-dopant miscibility, a necessary step when …
[PDF][PDF] Concepts and principles of self-n-doping in perylene diimide chromophores for applications in biochemistry, energy harvesting, energy storage, and catalysis
D Powell, L Whittaker-Brooks - scholar.archive.org
Self-doping is an important method of increasing carrier concentrations in organic
electronics that completely eliminates the need to tailor host—dopant miscibility; a …
electronics that completely eliminates the need to tailor host—dopant miscibility; a …
Concepts and principles of self-n-doping in perylene diimide chromophores for applications in biochemistry, energy harvesting, energy storage, and catalysis
D Powell, L Whittaker-Brooks - 2022 - chemrxiv.org
Self-doping is an important method of increasing carrier concentrations in organic
electronics that completely eliminates the need to tailor host—dopant miscibility; a …
electronics that completely eliminates the need to tailor host—dopant miscibility; a …