Light-Driven Sandwich ZnO/TiO2/Pt Janus Micromotors: Schottky Barrier Suppression by Addition of TiO2 Atomic Interface Layers into ZnO/Pt Micromachines Leading to Enhanced Fuel-Free Propulsion

článek v časopise ve Web of Science, Jimp

angličtina

Conventional binary light-driven micromotors, based on semiconducting photocatalysts and metal junctions, have mostly shown limited speed and charge separation/transport due to their not well-designed interfaces. Here ZnO/Pt Janus micromotors with atomically smooth interfaces are introduced, which show fast light-driven and fuel-free propulsion (15 body-length s−1). Furthermore, the speed of ZnO/Pt micromotors is increased by ≈60% with a few atomic amorphous TiO2 photocatalyst interlayers. The new photocatalysts’ interfaces, i.e., ZnO/TiO2, provide type II heterojunctions, leading to an increase in the number of electron/hole pairs and then improving the electron transfer to Pt metal. This effective charge separation/transfer results in a faster electrophoretic motion of the novel ternary ZnO/TiO2/Pt micromotors. The concept of the type II heterojunction, which is well known in photocatalysis communities, is used in light-driven micromotors as a new approach and paves the way for the next-generation of faster fuel-free “green” micromotors.

charge transport, interfaces, Janus micromotors, light-driven, type II heterojunctions

POURRAHIMI, A.; VILLA, K.; SOFER, Z.; PUMERA, M.

1. 11. 2019

2366-9608

Small Methods

3

11

Spolková republika Německo

1900258

1900258

8

https://onlinelibrary.wiley.com/doi/abs/10.1002/smtd.201900258