Publication result detail

Photocatalytic Micromotors Activated by UV to Visible Light for Environmental Remediation, Micropumps, Reversible Assembly, Transportation, and Biomimicry

KONG, L.; MAYORGA-MARTINEZ, C.; GUAN, J.; PUMERA, M.

Original Title

Photocatalytic Micromotors Activated by UV to Visible Light for Environmental Remediation, Micropumps, Reversible Assembly, Transportation, and Biomimicry

English Title

Photocatalytic Micromotors Activated by UV to Visible Light for Environmental Remediation, Micropumps, Reversible Assembly, Transportation, and Biomimicry

Type

WoS Article

Original Abstract

Photocatalytic micromotors are light-induced, chemically powered micromachines based on photocatalytic materials, activated by light illumination, and have redox reactions with environmental solutions to produce chemical gradients and bubbles that propel the micromachines through self-diffusiophoresis, self-electrophoresis, and bubble recoil. Due to the fact that excitation light relates largely to the bandgaps of selected materials, the development of photocatalytic micromotors has experienced an evolution from ultraviolet-light-activated to visible-light-activated and potentially biocompatible systems. Furthermore, due to the strong redox capacity and physical effects caused by the products or product gradients, photocatalytic micromotors have applications in environmental remediation, micropumps, reversible assembly, transportation, and biomimicry.

English abstract

Photocatalytic micromotors are light-induced, chemically powered micromachines based on photocatalytic materials, activated by light illumination, and have redox reactions with environmental solutions to produce chemical gradients and bubbles that propel the micromachines through self-diffusiophoresis, self-electrophoresis, and bubble recoil. Due to the fact that excitation light relates largely to the bandgaps of selected materials, the development of photocatalytic micromotors has experienced an evolution from ultraviolet-light-activated to visible-light-activated and potentially biocompatible systems. Furthermore, due to the strong redox capacity and physical effects caused by the products or product gradients, photocatalytic micromotors have applications in environmental remediation, micropumps, reversible assembly, transportation, and biomimicry.

Keywords

light-activated systems; photocatalytic micromotors; product gradient

Key words in English

light-activated systems; photocatalytic micromotors; product gradient

Authors

KONG, L.; MAYORGA-MARTINEZ, C.; GUAN, J.; PUMERA, M.

RIV year

2021

Released

01.07.2020

Publisher

WILEY-V C H VERLAG GMBH

Location

WEINHEIM

ISBN

1613-6810

Periodical

Small

Volume

16

Number

27

State

Federal Republic of Germany

Pages from

1903179-1

Pages to

1903179-14

Pages count

14

URL

https://onlinelibrary.wiley.com/doi/full/10.1002/smll.201903179