Simultaneous growth of rutile TiO2 as 1D/3D nanorod/nanoflower on FTO in one-step process enhances electrochemical response of photoanode in DSSC

Article ID	Journal	Published Year	Pages	File Type
6601333	Electrochemistry Communications	2014	4 Pages	PDF

Abstract

Simultaneous growth of 1D/3D-nanorod/nanoflower like structures of TiO2 without significant change in their surface oxidation states (Ti3Â + and Ti4Â +) had better capabilities for light harvesting in DSSC to achieve higher sensitivity.

Keywords

Nano-structures surface states Solar cell

Related Topics

Physical Sciences and Engineering Chemical Engineering Chemical Engineering (General)

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Simultaneous growth of rutile TiO2 as 1D/3D nanorod/nanoflower on FTO in one-step process enhances electrochemical response of photoanode in DSSC

Authors

Kyung-Hee Park, Marshal Dhayal,