Search Results - "Kalantzopoulos, G. N."

Intercalation and Retention of Carbon Dioxide in a Smectite Clay promoted by Interlayer Cations by Michels, L., Fossum, J. O., Rozynek, Z., Hemmen, H., Rustenberg, K., Sobas, P. A., Kalantzopoulos, G. N., Knudsen, K. D., Janek, M., Plivelic, T. S., da Silva, G. J.

“…A good material for CO 2 capture should possess some specific properties: (i) a large effective surface area with good adsorption capacity, (ii) selectivity…”
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Hydrogen storage in ordered and disordered phenylene-bridged mesoporous organosilicas by Kalantzopoulos, G.N., Enotiadis, A., Maccallini, E., Antoniou, M., Dimos, K., Policicchio, A., Klontzas, E., Tylianakis, E., Binas, V., Trikalitis, P.N., Agostino, R.G., Gournis, D., Froudakis, G.E.

“…Novel hexagonal Periodic Mesoporous Organosilicas (PMOs) and Disordered Mesoporous Organosilicas (DMOs) were synthesized by hydrolysis of…”
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Material properties and empirical rate equations for hydrogen sorption reactions in 2 LiNH2–1.1 MgH2–0.1 LiBH4–3 wt.% ZrCoH3 by Bürger, I., Hu, J.J., Vitillo, J.G., Kalantzopoulos, G.N., Deledda, S., Fichtner, M., Baricco, M., Linder, M.

“…2 LiNH2–1.1 MgH2–0.1 LiBH4–3 wt.% ZrCoH3 is a solid state hydrogen storage material with a hydrogen storage capacity of up to 5.3 wt.%. As the material shows…”
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Hydrogen storage of Mg–Zn mixed metal borohydrides by Kalantzopoulos, G.N., Vitillo, J.G., Albanese, E., Pinatel, E., Civalleri, B., Deledda, S., Bordiga, S., Baricco, M., Hauback, B.C.

“…•Samples were synthesized by ball milling Mg(BH4)2 and ZnCl2 at different conditions.•Mg(1−x)Znx(BH4)2 solid solution formed with x related to the initial…”
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Theoretical and experimental study on Mg(BH4)2–Zn(BH4)2 mixed borohydrides by Albanese, E., Kalantzopoulos, G.N., Vitillo, J.G., Pinatel, E., Civalleri, B., Deledda, S., Bordiga, S., Hauback, B.C., Baricco, M.

“…•An ideal mixing behavior was predicted for Mg(1−x)Znx(BH4)2 solid solutions.•A value of 30kJmolH2-1 for the enthalpy of decomposition has been calculated for…”
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Hydrogen storage properties of γ–Mg(BH4)2 modified by MoO3 and TiO2 by Saldan, I., Frommen, C., Llamas-Jansa, I., Kalantzopoulos, G.N., Hino, S., Arstad, B., Heyn, R.H., Zavorotynska, O., Deledda, S., Sørby, M.H., Fjellvåg, H., Hauback, B.C.

“…The reversible hydrogen desorption–absorption of γ–Mg(BH4)2 ball milled with MoO3 and TiO2 has been investigated. No mechanochemical interaction between…”
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Resistance to the transport of H2 through the external surface of as-made and modified silicalite-1 (MFI) by Kalantzopoulos, G.N., Policicchio, A., Maccallini, E., Krkljus, I., Ciuchi, F., Hirscher, M., Agostino, R.G., Golemme, G.

“…The adsorption and the thermal desorption of hydrogen in as-made and surface-modified silicalite-1 (MFI) loose crystals has been studied to shed light on the…”
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Material properties and empirical rate equations for hydrogen sorption reactions in 2 LiNH sub(2)-1.1 MgH sub(2)-0.1 LiBH sub(4)-3 wt.% ZrCoH sub(3) by Buerger, I, Hu, J J, Vitillo, J G, Kalantzopoulos, G N, Deledda, S, Fichtner, M, Baricco, M, Linder, M

“…2 LiNH sub(2)-1.1 MgH sub(2)-0.1 LiBH sub(4)-3 wt.% ZrCoH sub(3) is a solid state hydrogen storage material with a hydrogen storage capacity of up to 5.3 wt.%…”
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Hydrogen storage of Mg-Zn mixed metal borohydrides by Kalantzopoulos, G N, Vitillo, J G, Albanese, E, Pinatel, E, Civalleri, B, Deledda, S, Bordiga, S, Baricco, M, Hauback, B C

“…On the basis of DFT results on the ideal amount of Zn required to dissolute into the [alpha]-phase of Mg(BH sub(4)) sub(2) (space group P6 sub(1)22) and…”
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Theoretical and experimental study on Mg(BH sub(4)) sub(2)-Zn(BH sub(4)) sub(2) mixed borohydrides by Albanese, E, Kalantzopoulos, G N, Vitillo, J G, Pinatel, E, Civalleri, B, Deledda, S, Bordiga, S, Hauback, B C, Baricco, M

“…After a screening of possible systems prone to give an enthalpy of decomposition close to 30 kJ (ProQuest: Formulae and/or non-USASCII text omitted), i.e…”
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