Turner, Stuart

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  • Turner, Stuart (1)
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Nanostructured materials for solid-state hydrogen storage: A review of the achievement of COST Action MP1103

Callini, Elsa; Aguey-Zinsou, Kondo-Francois; Ahuja, Rajeev; Ramon Ares, Jose; Bals, Sara; Biliskov, Nikola; Chakraborty, Sudip; Charalambopoulou, Georgia; Chaudhary, Anna-Lisa; Cuevas, Fermin; Dam, Bernard; de Jongh, Petra; Dornheim, Martin; Filinchuk, Yaroslav; Grbović-Novaković, Jasmina; Hirscher, Michael; Jensen, Torben R.; Jensen, Peter Bjerre; Novaković, Nikola; Lai, Qiwen; Leardini, Fabrice; Gattia, Daniele Mirabile; Pasquini, Luca; Steriotis, Theodore; Turner, Stuart; Vegge, Tejs; Zuttel, Andreas; Montone, Amelia

(2016)

TY  - JOUR
AU  - Callini, Elsa
AU  - Aguey-Zinsou, Kondo-Francois
AU  - Ahuja, Rajeev
AU  - Ramon Ares, Jose
AU  - Bals, Sara
AU  - Biliskov, Nikola
AU  - Chakraborty, Sudip
AU  - Charalambopoulou, Georgia
AU  - Chaudhary, Anna-Lisa
AU  - Cuevas, Fermin
AU  - Dam, Bernard
AU  - de Jongh, Petra
AU  - Dornheim, Martin
AU  - Filinchuk, Yaroslav
AU  - Grbović-Novaković, Jasmina
AU  - Hirscher, Michael
AU  - Jensen, Torben R.
AU  - Jensen, Peter Bjerre
AU  - Novaković, Nikola
AU  - Lai, Qiwen
AU  - Leardini, Fabrice
AU  - Gattia, Daniele Mirabile
AU  - Pasquini, Luca
AU  - Steriotis, Theodore
AU  - Turner, Stuart
AU  - Vegge, Tejs
AU  - Zuttel, Andreas
AU  - Montone, Amelia
PY  - 2016
UR  - http://vinar.vin.bg.ac.rs/handle/123456789/7109
AB  - In the framework of the European Cooperation in Science and Technology (COST) Action MP1103 Nanostructured Materials for Solid-State Hydrogen Storage were synthesized, characterized and modeled. This Action dealt with the state of the art of energy storage and set up a competitive and coordinated network capable to define new and unexplored ways for Solid State Hydrogen Storage by innovative and interdisciplinary research within the European Research Area. An important number of new compounds have been synthesized: metal hydrides, complex hydrides, metal halide ammines and amidoboranes. Tuning the structure from bulk to thin film, nanoparticles and nanoconfined composites improved the hydrogen sorption properties and opened the perspective to new technological applications. Direct imaging of the hydrogenation reactions and in situ measurements under operando conditions have been carried out in these studies. Computational screening methods allowed the prediction of suitable compounds for hydrogen storage and the modeling of the hydrogen sorption reactions on mono-, bi-, and three-dimensional systems. This manuscript presents a review of the main achievements of this Action. (C) 2016 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.
T2  - International Journal of Hydrogen Energy
T1  - Nanostructured materials for solid-state hydrogen storage: A review of the achievement of COST Action MP1103
VL  - 41
IS  - 32
SP  - 14404
EP  - 14428
DO  - 10.1016/j.ijhydene.2016.04.025
ER  - 
@article{
author = "Callini, Elsa and Aguey-Zinsou, Kondo-Francois and Ahuja, Rajeev and Ramon Ares, Jose and Bals, Sara and Biliskov, Nikola and Chakraborty, Sudip and Charalambopoulou, Georgia and Chaudhary, Anna-Lisa and Cuevas, Fermin and Dam, Bernard and de Jongh, Petra and Dornheim, Martin and Filinchuk, Yaroslav and Grbović-Novaković, Jasmina and Hirscher, Michael and Jensen, Torben R. and Jensen, Peter Bjerre and Novaković, Nikola and Lai, Qiwen and Leardini, Fabrice and Gattia, Daniele Mirabile and Pasquini, Luca and Steriotis, Theodore and Turner, Stuart and Vegge, Tejs and Zuttel, Andreas and Montone, Amelia",
year = "2016",
abstract = "In the framework of the European Cooperation in Science and Technology (COST) Action MP1103 Nanostructured Materials for Solid-State Hydrogen Storage were synthesized, characterized and modeled. This Action dealt with the state of the art of energy storage and set up a competitive and coordinated network capable to define new and unexplored ways for Solid State Hydrogen Storage by innovative and interdisciplinary research within the European Research Area. An important number of new compounds have been synthesized: metal hydrides, complex hydrides, metal halide ammines and amidoboranes. Tuning the structure from bulk to thin film, nanoparticles and nanoconfined composites improved the hydrogen sorption properties and opened the perspective to new technological applications. Direct imaging of the hydrogenation reactions and in situ measurements under operando conditions have been carried out in these studies. Computational screening methods allowed the prediction of suitable compounds for hydrogen storage and the modeling of the hydrogen sorption reactions on mono-, bi-, and three-dimensional systems. This manuscript presents a review of the main achievements of this Action. (C) 2016 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.",
journal = "International Journal of Hydrogen Energy",
title = "Nanostructured materials for solid-state hydrogen storage: A review of the achievement of COST Action MP1103",
volume = "41",
number = "32",
pages = "14404-14428",
doi = "10.1016/j.ijhydene.2016.04.025"
}
Callini, E., Aguey-Zinsou, K., Ahuja, R., Ramon Ares, J., Bals, S., Biliskov, N., Chakraborty, S., Charalambopoulou, G., Chaudhary, A., Cuevas, F., Dam, B., de Jongh, P., Dornheim, M., Filinchuk, Y., Grbović-Novaković, J., Hirscher, M., Jensen, T. R., Jensen, P. B., Novaković, N., Lai, Q., Leardini, F., Gattia, D. M., Pasquini, L., Steriotis, T., Turner, S., Vegge, T., Zuttel, A.,& Montone, A.. (2016). Nanostructured materials for solid-state hydrogen storage: A review of the achievement of COST Action MP1103. in International Journal of Hydrogen Energy, 41(32), 14404-14428.
https://doi.org/10.1016/j.ijhydene.2016.04.025
Callini E, Aguey-Zinsou K, Ahuja R, Ramon Ares J, Bals S, Biliskov N, Chakraborty S, Charalambopoulou G, Chaudhary A, Cuevas F, Dam B, de Jongh P, Dornheim M, Filinchuk Y, Grbović-Novaković J, Hirscher M, Jensen TR, Jensen PB, Novaković N, Lai Q, Leardini F, Gattia DM, Pasquini L, Steriotis T, Turner S, Vegge T, Zuttel A, Montone A. Nanostructured materials for solid-state hydrogen storage: A review of the achievement of COST Action MP1103. in International Journal of Hydrogen Energy. 2016;41(32):14404-14428.
doi:10.1016/j.ijhydene.2016.04.025 .
Callini, Elsa, Aguey-Zinsou, Kondo-Francois, Ahuja, Rajeev, Ramon Ares, Jose, Bals, Sara, Biliskov, Nikola, Chakraborty, Sudip, Charalambopoulou, Georgia, Chaudhary, Anna-Lisa, Cuevas, Fermin, Dam, Bernard, de Jongh, Petra, Dornheim, Martin, Filinchuk, Yaroslav, Grbović-Novaković, Jasmina, Hirscher, Michael, Jensen, Torben R., Jensen, Peter Bjerre, Novaković, Nikola, Lai, Qiwen, Leardini, Fabrice, Gattia, Daniele Mirabile, Pasquini, Luca, Steriotis, Theodore, Turner, Stuart, Vegge, Tejs, Zuttel, Andreas, Montone, Amelia, "Nanostructured materials for solid-state hydrogen storage: A review of the achievement of COST Action MP1103" in International Journal of Hydrogen Energy, 41, no. 32 (2016):14404-14428,
https://doi.org/10.1016/j.ijhydene.2016.04.025 . .
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