Low-temperature (70 degrees C) ambient air plasma-fabrication of inkjet-printed mesoporous TiO2 flexible photoanodes

journal article in Web of Science

English

Titania/silica electron-generating and -transporting nanocomposite 300 nmlayers of high porosity were deposited onto ITO/PET flexible foils using inkjet printing. Prior to printing, the ITO surface had been modified by novel low-temperature ambient air roll-to-roll plasma in order to enhance its surface properties by removing carbon and oxygen contaminants, a process that led to rapid improvement of surface energy. Consequently the ITO work function, an important parameter involving charge injection efficiency in energy harvesting systems, increased by 1 eV. Afterwards, the TiO2/methyl-silica ink exhibited excellent wetting on a 2 s plasma-treated ITO surface. The coating was further processed/mineralized by an additional low-temperature ambient air plasma treatment step. The plasma processing of raw photoanodes led to the mineralization of the methyl-silica binder which resulted in the formation of a fully inorganic TiO2/SiO2 mesoporous structure and significantly increased electrophotocatalytic activity, leading to increased photocurrents. The entire two-step plasma process was performed at low-temperature (70 degrees C) and high speeds, enabling practical applications of such a procedure for large-area fabrication of flexible photoanodes.

plasma treatment; ambient air plasma; TiO2 flexible photoanode; mesoporous coating; roll-to-roll processing; inkjet printing

HOMOLA, T.; SHEKARGOFTAR, M.; DZIK, P.; KRUMPOLEC, R.; ĎURAŠOVÁ, Z.; VESELÝ, M.; WEITER, M.

1. 9. 2017

Iop Publishing Ltd, Temple Circus, Temple Way, Bristol Bs1 6be, England

Bristol, Velká Británie

2058-8585

Flexible and Printed Electronics

2

3

United Kingdom of Great Britain and Northern Ireland

1

11

11

http://iopscience.iop.org/article/10.1088/2058-8585/aa88e6