A multifaceted approach to hydrogen storage

Andrew J. Churchard; Ewa Banach; Andreas Borgschulte; Riccarda Caputo; Jian Cheng Chen; David Clary; Karol J. Fijalkowski; Hans Geerlings; Radostina V. Genova; Wojciech Grochala; Tomasz Jaroń; Juan Carlos Juanes-Marcos; Bengt Kasemo; Geert Jan Kroes; Ivan Ljubić; Nicola Naujoks; Jens K. Nørskov; Roar A. Olsen; Flavio Pendolino; Arndt Remhof; Loránd Románszki; Adem Tekin; Tejs Vegge; Michael Zäch; Andreas Züttel

doi:10.1039/c1cp22312g

A multifaceted approach to hydrogen storage

Andrew J. Churchard^*
, Ewa Banach
, Andreas Borgschulte
, Riccarda Caputo
, Jian Cheng Chen
, David Clary
, Karol J. Fijalkowski
, Hans Geerlings
, Radostina V. Genova
, Wojciech Grochala
, Tomasz Jaroń
, Juan Carlos Juanes-Marcos
, Bengt Kasemo
, Geert Jan Kroes
, Ivan Ljubić
, Nicola Naujoks
, Jens K. Nørskov
, Roar A. Olsen
, Flavio Pendolino
, Arndt Remhof

Loránd Románszki, Adem Tekin, Tejs Vegge, Michael Zäch, Andreas Züttel

^*Bu çalışma için yazışmadan sorumlu yazar

Bilişim Enstitüsü

University of Warsaw
Royal Dutch Shell PLC
Swiss Federal Laboratories for Materials Science and Technology (Empa)
Swiss Federal Institute of Technology Zurich
Leiden University
University of Oxford
Delft University of Technology
Chalmers University of Technology
Ruder Boskovic Institute
SUNCAT Center for Interface Science and Catalysis
Stanford University
Technical University of Denmark

Araştırma sonucu: Dergiye katkı › İnceleme makalesi › bilirkişi

64 Atıf (Scopus)

Özet

The widespread adoption of hydrogen as an energy carrier could bring significant benefits, but only if a number of currently intractable problems can be overcome. Not the least of these is the problem of storage, particularly when aimed at use onboard light-vehicles. The aim of this overview is to look in depth at a number of areas linked by the recently concluded HYDROGEN research network, representing an intentionally multi-faceted selection with the goal of advancing the field on a number of fronts simultaneously. For the general reader we provide a concise outline of the main approaches to storing hydrogen before moving on to detailed reviews of recent research in the solid chemical storage of hydrogen, and so provide an entry point for the interested reader on these diverse topics. The subjects covered include: the mechanisms of Ti catalysis in alanates; the kinetics of the borohydrides and the resulting limitations; novel transition metal catalysts for use with complex hydrides; less common borohydrides; protic-hydridic stores; metal ammines and novel approaches to nano-confined metal hydrides.

Orijinal dil	İngilizce
Sayfa (başlangıç-bitiş)	16955-16972
Sayfa sayısı	18
Dergi	Physical Chemistry Chemical Physics
Hacim	13
Basın numarası	38
DOI'lar	https://doi.org/10.1039/c1cp22312g
Yayın durumu	Yayınlandı - 14 Eki 2011

BM SKH

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SKH 7 Erişilebilir ve Temiz Enerji

Belgeye Erişim

10.1039/c1cp22312g

Diğer Dosyalar ve Linkler

Link to publication in Scopus

Alıntı Yap

Churchard, A. J., Banach, E., Borgschulte, A., Caputo, R., Chen, J. C., Clary, D., Fijalkowski, K. J., Geerlings, H., Genova, R. V., Grochala, W., Jaroń, T., Juanes-Marcos, J. C., Kasemo, B., Kroes, G. J., Ljubić, I., Naujoks, N., Nørskov, J. K., Olsen, R. A., Pendolino, F., ... Züttel, A. (2011). A multifaceted approach to hydrogen storage. Physical Chemistry Chemical Physics, 13(38), 16955-16972. https://doi.org/10.1039/c1cp22312g

@article{da6b7c2e25e9403a8bad2695de7fec29,

title = "A multifaceted approach to hydrogen storage",

abstract = "The widespread adoption of hydrogen as an energy carrier could bring significant benefits, but only if a number of currently intractable problems can be overcome. Not the least of these is the problem of storage, particularly when aimed at use onboard light-vehicles. The aim of this overview is to look in depth at a number of areas linked by the recently concluded HYDROGEN research network, representing an intentionally multi-faceted selection with the goal of advancing the field on a number of fronts simultaneously. For the general reader we provide a concise outline of the main approaches to storing hydrogen before moving on to detailed reviews of recent research in the solid chemical storage of hydrogen, and so provide an entry point for the interested reader on these diverse topics. The subjects covered include: the mechanisms of Ti catalysis in alanates; the kinetics of the borohydrides and the resulting limitations; novel transition metal catalysts for use with complex hydrides; less common borohydrides; protic-hydridic stores; metal ammines and novel approaches to nano-confined metal hydrides.",

author = "Churchard, \{Andrew J.\} and Ewa Banach and Andreas Borgschulte and Riccarda Caputo and Chen, \{Jian Cheng\} and David Clary and Fijalkowski, \{Karol J.\} and Hans Geerlings and Genova, \{Radostina V.\} and Wojciech Grochala and Tomasz Jaro{\'n} and Juanes-Marcos, \{Juan Carlos\} and Bengt Kasemo and Kroes, \{Geert Jan\} and Ivan Ljubi{\'c} and Nicola Naujoks and N{\o}rskov, \{Jens K.\} and Olsen, \{Roar A.\} and Flavio Pendolino and Arndt Remhof and Lor{\'a}nd Rom{\'a}nszki and Adem Tekin and Tejs Vegge and Michael Z{\"a}ch and Andreas Z{\"u}ttel",

year = "2011",

month = oct,

day = "14",

doi = "10.1039/c1cp22312g",

language = "English",

volume = "13",

pages = "16955--16972",

journal = "Physical Chemistry Chemical Physics",

issn = "1463-9076",

publisher = "Royal Society of Chemistry",

number = "38",

}

Churchard, AJ, Banach, E, Borgschulte, A, Caputo, R, Chen, JC, Clary, D, Fijalkowski, KJ, Geerlings, H, Genova, RV, Grochala, W, Jaroń, T, Juanes-Marcos, JC, Kasemo, B, Kroes, GJ, Ljubić, I, Naujoks, N, Nørskov, JK, Olsen, RA, Pendolino, F, Remhof, A, Románszki, L, Tekin, A, Vegge, T, Zäch, M & Züttel, A 2011, 'A multifaceted approach to hydrogen storage', Physical Chemistry Chemical Physics, hac. 13, no. 38, pp. 16955-16972. https://doi.org/10.1039/c1cp22312g

TY - JOUR

T1 - A multifaceted approach to hydrogen storage

AU - Churchard, Andrew J.

AU - Banach, Ewa

AU - Borgschulte, Andreas

AU - Caputo, Riccarda

AU - Chen, Jian Cheng

AU - Clary, David

AU - Fijalkowski, Karol J.

AU - Geerlings, Hans

AU - Genova, Radostina V.

AU - Grochala, Wojciech

AU - Jaroń, Tomasz

AU - Juanes-Marcos, Juan Carlos

AU - Kasemo, Bengt

AU - Kroes, Geert Jan

AU - Ljubić, Ivan

AU - Naujoks, Nicola

AU - Nørskov, Jens K.

AU - Olsen, Roar A.

AU - Pendolino, Flavio

AU - Remhof, Arndt

AU - Románszki, Loránd

AU - Tekin, Adem

AU - Vegge, Tejs

AU - Zäch, Michael

AU - Züttel, Andreas

PY - 2011/10/14

Y1 - 2011/10/14

N2 - The widespread adoption of hydrogen as an energy carrier could bring significant benefits, but only if a number of currently intractable problems can be overcome. Not the least of these is the problem of storage, particularly when aimed at use onboard light-vehicles. The aim of this overview is to look in depth at a number of areas linked by the recently concluded HYDROGEN research network, representing an intentionally multi-faceted selection with the goal of advancing the field on a number of fronts simultaneously. For the general reader we provide a concise outline of the main approaches to storing hydrogen before moving on to detailed reviews of recent research in the solid chemical storage of hydrogen, and so provide an entry point for the interested reader on these diverse topics. The subjects covered include: the mechanisms of Ti catalysis in alanates; the kinetics of the borohydrides and the resulting limitations; novel transition metal catalysts for use with complex hydrides; less common borohydrides; protic-hydridic stores; metal ammines and novel approaches to nano-confined metal hydrides.

AB - The widespread adoption of hydrogen as an energy carrier could bring significant benefits, but only if a number of currently intractable problems can be overcome. Not the least of these is the problem of storage, particularly when aimed at use onboard light-vehicles. The aim of this overview is to look in depth at a number of areas linked by the recently concluded HYDROGEN research network, representing an intentionally multi-faceted selection with the goal of advancing the field on a number of fronts simultaneously. For the general reader we provide a concise outline of the main approaches to storing hydrogen before moving on to detailed reviews of recent research in the solid chemical storage of hydrogen, and so provide an entry point for the interested reader on these diverse topics. The subjects covered include: the mechanisms of Ti catalysis in alanates; the kinetics of the borohydrides and the resulting limitations; novel transition metal catalysts for use with complex hydrides; less common borohydrides; protic-hydridic stores; metal ammines and novel approaches to nano-confined metal hydrides.

UR - https://www.scopus.com/pages/publications/80053221168

U2 - 10.1039/c1cp22312g

DO - 10.1039/c1cp22312g

M3 - Review article

AN - SCOPUS:80053221168

SN - 1463-9076

VL - 13

SP - 16955

EP - 16972

JO - Physical Chemistry Chemical Physics

JF - Physical Chemistry Chemical Physics

IS - 38

ER -

A multifaceted approach to hydrogen storage

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