Advances and challenges in photosynthetic hydrogen production

Kevin E. Redding; Jens Appel; Marko Boehm; Wolfgang Schuhmann; Marc M. Nowaczyk; Iftach Yacoby; Kirstin Gutekunst

doi:10.1016/j.tibtech.2022.04.007

Advances and challenges in photosynthetic hydrogen production

Kevin E. Redding, Jens Appel, Marko Boehm, Wolfgang Schuhmann, Marc M. Nowaczyk, Iftach Yacoby, Kirstin Gutekunst

Molecular Sciences, School of (SMS)

Research output: Contribution to journal › Review article › peer-review

22 Scopus citations

Abstract

The vision to replace coal with hydrogen goes back to Jules Verne in 1874. However, sustainable hydrogen production remains challenging. The most elegant approach is to utilize photosynthesis for water splitting and to subsequently save solar energy as hydrogen. Cyanobacteria and green algae are unicellular photosynthetic organisms that contain hydrogenases and thereby possess the enzymatic equipment for photosynthetic hydrogen production. These features of cyanobacteria and algae have inspired artificial and semi-artificial in vitro techniques, that connect photoexcited materials or enzymes with hydrogenases or mimics of these for hydrogen production. These in vitro methods have on their part been models for the fusion of cyanobacterial and algal hydrogenases to photosynthetic photosystem I (PSI) in vivo, which recently succeeded as proofs of principle.

Original language	English (US)
Pages (from-to)	1313-1325
Number of pages	13
Journal	Trends in Biotechnology
Volume	40
Issue number	11
DOIs	https://doi.org/10.1016/j.tibtech.2022.04.007
State	Published - Nov 2022

Keywords

cyanobacteria
green algae
solar hydrogen

ASJC Scopus subject areas

Biotechnology
Bioengineering

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10.1016/j.tibtech.2022.04.007

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title = "Advances and challenges in photosynthetic hydrogen production",

abstract = "The vision to replace coal with hydrogen goes back to Jules Verne in 1874. However, sustainable hydrogen production remains challenging. The most elegant approach is to utilize photosynthesis for water splitting and to subsequently save solar energy as hydrogen. Cyanobacteria and green algae are unicellular photosynthetic organisms that contain hydrogenases and thereby possess the enzymatic equipment for photosynthetic hydrogen production. These features of cyanobacteria and algae have inspired artificial and semi-artificial in vitro techniques, that connect photoexcited materials or enzymes with hydrogenases or mimics of these for hydrogen production. These in vitro methods have on their part been models for the fusion of cyanobacterial and algal hydrogenases to photosynthetic photosystem I (PSI) in vivo, which recently succeeded as proofs of principle.",

keywords = "cyanobacteria, green algae, solar hydrogen",

author = "Redding, {Kevin E.} and Jens Appel and Marko Boehm and Wolfgang Schuhmann and Nowaczyk, {Marc M.} and Iftach Yacoby and Kirstin Gutekunst",

note = "Funding Information: Funding is acknowledged from the German Ministry of Science and Education (BMBF: FP309 ), the German Science Foundation (DFG: GU1522/5-1 , FOR2816/2 , Research Training Group 2341 MiCon) and the U.S. National Science Foundation ( CBET-1706960 ). Publisher Copyright: {\textcopyright} 2022 The Author(s)",

year = "2022",

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doi = "10.1016/j.tibtech.2022.04.007",

language = "English (US)",

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AU - Redding, Kevin E.

AU - Appel, Jens

AU - Boehm, Marko

AU - Schuhmann, Wolfgang

AU - Nowaczyk, Marc M.

AU - Yacoby, Iftach

AU - Gutekunst, Kirstin

N1 - Funding Information: Funding is acknowledged from the German Ministry of Science and Education (BMBF: FP309 ), the German Science Foundation (DFG: GU1522/5-1 , FOR2816/2 , Research Training Group 2341 MiCon) and the U.S. National Science Foundation ( CBET-1706960 ). Publisher Copyright: © 2022 The Author(s)

PY - 2022/11

Y1 - 2022/11

N2 - The vision to replace coal with hydrogen goes back to Jules Verne in 1874. However, sustainable hydrogen production remains challenging. The most elegant approach is to utilize photosynthesis for water splitting and to subsequently save solar energy as hydrogen. Cyanobacteria and green algae are unicellular photosynthetic organisms that contain hydrogenases and thereby possess the enzymatic equipment for photosynthetic hydrogen production. These features of cyanobacteria and algae have inspired artificial and semi-artificial in vitro techniques, that connect photoexcited materials or enzymes with hydrogenases or mimics of these for hydrogen production. These in vitro methods have on their part been models for the fusion of cyanobacterial and algal hydrogenases to photosynthetic photosystem I (PSI) in vivo, which recently succeeded as proofs of principle.

AB - The vision to replace coal with hydrogen goes back to Jules Verne in 1874. However, sustainable hydrogen production remains challenging. The most elegant approach is to utilize photosynthesis for water splitting and to subsequently save solar energy as hydrogen. Cyanobacteria and green algae are unicellular photosynthetic organisms that contain hydrogenases and thereby possess the enzymatic equipment for photosynthetic hydrogen production. These features of cyanobacteria and algae have inspired artificial and semi-artificial in vitro techniques, that connect photoexcited materials or enzymes with hydrogenases or mimics of these for hydrogen production. These in vitro methods have on their part been models for the fusion of cyanobacterial and algal hydrogenases to photosynthetic photosystem I (PSI) in vivo, which recently succeeded as proofs of principle.

KW - cyanobacteria

KW - green algae

KW - solar hydrogen

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Advances and challenges in photosynthetic hydrogen production

Abstract

Keywords

ASJC Scopus subject areas

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