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How the Surface Structure Determines the Properties of CuH

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How the Surface Structure Determines the Properties of CuH. / Bennett, E.L.; Bennett, E.; Wilson, T. et al.
In: Inorganic Chemistry, Vol. 54, No. 5, 11.02.2015, p. 2213-2220.

Research output: Contribution to journalArticlepeer-review

HarvardHarvard

Bennett, EL, Bennett, E, Wilson, T, Murphy, PJ, Refson, K, Hannon, AC, Imberti, S, Callear, SK, Chass, GA & Parker, SF 2015, 'How the Surface Structure Determines the Properties of CuH', Inorganic Chemistry, vol. 54, no. 5, pp. 2213-2220. https://doi.org/10.1021/ic5027009

APA

Bennett, E. L., Bennett, E., Wilson, T., Murphy, P. J., Refson, K., Hannon, A. C., Imberti, S., Callear, S. K., Chass, G. A., & Parker, S. F. (2015). How the Surface Structure Determines the Properties of CuH. Inorganic Chemistry, 54(5), 2213-2220. https://doi.org/10.1021/ic5027009

CBE

Bennett EL, Bennett E, Wilson T, Murphy PJ, Refson K, Hannon AC, Imberti S, Callear SK, Chass GA, Parker SF. 2015. How the Surface Structure Determines the Properties of CuH. Inorganic Chemistry. 54(5):2213-2220. https://doi.org/10.1021/ic5027009

MLA

Bennett, E.L. et al. "How the Surface Structure Determines the Properties of CuH". Inorganic Chemistry. 2015, 54(5). 2213-2220. https://doi.org/10.1021/ic5027009

VancouverVancouver

Bennett EL, Bennett E, Wilson T, Murphy PJ, Refson K, Hannon AC et al. How the Surface Structure Determines the Properties of CuH. Inorganic Chemistry. 2015 Feb 11;54(5):2213-2220. doi: 10.1021/ic5027009

Author

Bennett, E.L. ; Bennett, E. ; Wilson, T. et al. / How the Surface Structure Determines the Properties of CuH. In: Inorganic Chemistry. 2015 ; Vol. 54, No. 5. pp. 2213-2220.

RIS

TY - JOUR

T1 - How the Surface Structure Determines the Properties of CuH

AU - Bennett, E.L.

AU - Bennett, E.

AU - Wilson, T.

AU - Murphy, P.J.

AU - Refson, K.

AU - Hannon, A.C.

AU - Imberti, S.

AU - Callear, S.K.

AU - Chass, G.A.

AU - Parker, S.F.

PY - 2015/2/11

Y1 - 2015/2/11

N2 - CuH occurs in fields ranging from catalysis to electrochemistry to organic synthesis. We show that, while both aqueous and nonaqueous methods for the synthesis of CuH result in the same bulk product, the surface properties differ: bonded hydroxyls from aqueous routes and a coordinated donor from nonaqueous routes. This work provides a particularly clear example of how the nature of an adsorbed layer on a nanoparticle surface determines the properties

AB - CuH occurs in fields ranging from catalysis to electrochemistry to organic synthesis. We show that, while both aqueous and nonaqueous methods for the synthesis of CuH result in the same bulk product, the surface properties differ: bonded hydroxyls from aqueous routes and a coordinated donor from nonaqueous routes. This work provides a particularly clear example of how the nature of an adsorbed layer on a nanoparticle surface determines the properties

U2 - 10.1021/ic5027009

DO - 10.1021/ic5027009

M3 - Article

VL - 54

SP - 2213

EP - 2220

JO - Inorganic Chemistry

JF - Inorganic Chemistry

SN - 0020-1669

IS - 5

ER -