50 Years of Materials Research for Photocatalytic Water Splitting

50 years ago, Fujishima and Honda published their work on photoelectrocatalytic water splitting with the aid of the light absorbing semiconductor TiO2. Since then, many different novel absorber materials for water splitting have been discovered and investigated. This Minireview aims to briefly summa...

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Published in:European journal of inorganic chemistry Vol. 2021; no. 25; pp. 2435 - 2441
Main Author: Marschall, Roland
Format: Journal Article
Language:English
Published: Weinheim Wiley Subscription Services, Inc 07.07.2021
Subjects:
Absorbers (materials)
Electromagnetic absorption
Inorganic chemistry
Photocatalysis
Semiconductor materials
Titanium dioxide
Water splitting
ISSN:1434-1948, 1099-0682
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Abstract 50 years ago, Fujishima and Honda published their work on photoelectrocatalytic water splitting with the aid of the light absorbing semiconductor TiO2. Since then, many different novel absorber materials for water splitting have been discovered and investigated. This Minireview aims to briefly summarize the most important materials developments for photocatalytic water splitting of that time, differentiating between single absorbers and Z‐schemes. This Minireview aims to briefly summarize the most important material developments for heterogeneous photocatalytic water splitting of the last 50 years, focusing on single absorbers and Z‐schemes.
AbstractList 50 years ago, Fujishima and Honda published their work on photoelectrocatalytic water splitting with the aid of the light absorbing semiconductor TiO 2 . Since then, many different novel absorber materials for water splitting have been discovered and investigated. This Minireview aims to briefly summarize the most important materials developments for photocatalytic water splitting of that time, differentiating between single absorbers and Z‐schemes.
50 years ago, Fujishima and Honda published their work on photoelectrocatalytic water splitting with the aid of the light absorbing semiconductor TiO2. Since then, many different novel absorber materials for water splitting have been discovered and investigated. This Minireview aims to briefly summarize the most important materials developments for photocatalytic water splitting of that time, differentiating between single absorbers and Z‐schemes.
50 years ago, Fujishima and Honda published their work on photoelectrocatalytic water splitting with the aid of the light absorbing semiconductor TiO2. Since then, many different novel absorber materials for water splitting have been discovered and investigated. This Minireview aims to briefly summarize the most important materials developments for photocatalytic water splitting of that time, differentiating between single absorbers and Z‐schemes. This Minireview aims to briefly summarize the most important material developments for heterogeneous photocatalytic water splitting of the last 50 years, focusing on single absorbers and Z‐schemes.
Author Marschall, Roland
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  email: Roland.marschall@uni-bayreuth.de
  organization: University of Bayreuth
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Snippet 50 years ago, Fujishima and Honda published their work on photoelectrocatalytic water splitting with the aid of the light absorbing semiconductor TiO2. Since...
50 years ago, Fujishima and Honda published their work on photoelectrocatalytic water splitting with the aid of the light absorbing semiconductor TiO 2 . Since...
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SubjectTerms Absorbers (materials)
Electromagnetic absorption
Inorganic chemistry
Photocatalysis
Semiconductor materials
Titanium dioxide
Water splitting
Title 50 Years of Materials Research for Photocatalytic Water Splitting
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