📣 Help Shape the Future of UKRI's Gateway to Research (GtR)

We're improving UKRI's Gateway to Research and are seeking your input! If you would be interested in being interviewed about the improvements we're making and to have your say about how we can make GtR more user-friendly, impactful, and effective for the Research and Innovation community, please email gateway@ukri.org.

How TiO2 crystallographic surfaces influence charge injection rates from a chemisorbed dye sensitiser. (2012)

First Author: Martsinovich N

Attributed to: Theory of dye sensitized solar cells funded by EPSRC

Abstract

No abstract provided

Bibliographic Information

Digital Object Identifier: http://dx.doi.org/10.1039/c2cp42055d

PubMed Identifier: 22941274

Publication URI: http://europepmc.org/abstract/MED/22941274

Type: Journal Article/Review

Volume: 14

Parent Publication: Physical chemistry chemical physics : PCCP

Issue: 38

ISSN: 1463-9076