Technological Pathways to Produce Compressed and Highly Pure Hydrogen from Solar Power

Ivanova, Mariya; Guillon, Olivier; Hecimovic, Ante; Eckert, Kerstin; Neumann, Nicole; Schäfer, Laura-Alena; Sattler, Christian; Grosselindemann, Cedric; Stoppel, Leonid; Rauner, David; Schlatmann, Rutger; Kulyk, Nadiia; Fantz, Ursel; Menzler, Norbert H.; Seidler, Florian; Liang, Feng; Wetzel, Thomas; Peters, Ralf; Müller, Martin; Uhlenbruck, Neele; Dietrich, Benjamin; Grobbel, Johannes; Bagacki, Rory; Röse, Philipp; Calnan, Sonya; Hofberger, Christoph; Haas, Stefan; Abdi, Fatwa F.; Mutschke, Gerd; Roeb, Martin; Krol, Roel van de; Weber, Andre; Harting, Jens; Duran, Ines; Brendelberger, Stefan

doi:10.1002/anie.202218850

TY  - JOUR
AU  - Ivanova, Mariya
AU  - Peters, Ralf
AU  - Müller, Martin
AU  - Haas, Stefan
AU  - Seidler, Florian
AU  - Mutschke, Gerd
AU  - Eckert, Kerstin
AU  - Röse, Philipp
AU  - Calnan, Sonya
AU  - Bagacki, Rory
AU  - Schlatmann, Rutger
AU  - Grosselindemann, Cedric
AU  - Schäfer, Laura-Alena
AU  - Menzler, Norbert H.
AU  - Weber, Andre
AU  - Krol, Roel van de
AU  - Liang, Feng
AU  - Abdi, Fatwa F.
AU  - Brendelberger, Stefan
AU  - Neumann, Nicole
AU  - Grobbel, Johannes
AU  - Roeb, Martin
AU  - Sattler, Christian
AU  - Duran, Ines
AU  - Dietrich, Benjamin
AU  - Hofberger, Christoph
AU  - Stoppel, Leonid
AU  - Uhlenbruck, Neele
AU  - Wetzel, Thomas
AU  - Rauner, David
AU  - Hecimovic, Ante
AU  - Fantz, Ursel
AU  - Kulyk, Nadiia
AU  - Harting, Jens
AU  - Guillon, Olivier
TI  - Technological Pathways to Produce Compressed and Highly Pure Hydrogen from Solar Power
JO  - Angewandte Chemie / International edition
VL  - 62
IS  - 32
SN  - 1433-7851
CY  - Weinheim
PB  - Wiley-VCH
M1  - FZJ-2023-02057
SP  - e202218850
PY  - 2023
N1  - Keywords: H2 Generation · H2 Purification and Compression · Methane Pyrolysis · Water Electrolysis · Water Splitting
AB  - Hydrogen (H2) produced from renewables will have a growing impact on the global energy dynamics towards sustainable and carbon-neutral standards. The share of green H2 is still too low to meet the net-zero target, while the demand for high-quality hydrogen continues to rise. These factors amplify the need for economically viable H2 generation technologies. The present article aims at evaluating the existing technologies for high-quality H2 production based on solar energy. Technologies such as water electrolysis, photoelectrochemical and solar thermochemical water splitting, liquid metal reactors and plasma conversion utilize solar power directly or indirectly (as carbon-neutral electrons) and are reviewed from the perspective of their current development level, technical limitations and future potential.
LB  - PUB:(DE-HGF)16
C6  - 36637348
UR  - <Go to ISI:>//WOS:000985078000001
DO  - DOI:10.1002/anie.202218850
UR  - https://juser.fz-juelich.de/record/1007399
ER  -

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