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Detalhes Referência

Tipo
Artigos em Revista

Tipo de Documento
Artigo Completo

Título
The mechanism of CO2 hydration: a porous metal oxide nanocapsule catalyst can mimic the biological carbonic anhydrase role

Participantes na publicação
Nuno A. G. Bandeira (Author)
Somenath Garai (Author)
Achim Müller (Author)
Carles Bo (Author)

Resumo
The mechanism for the hydration of CO2 within a Keplerate nanocapsule is presented. A network of hydrogen bonds across the water layers in the first metal coordination sphere facilitates the proton abstraction and nucleophilic addition of water. The highly acidic properties of the polyoxometalate cluster are crucial in explaining the catalysed hydration.

Data de Publicação
2015

Suporte
Chemical Communications

Identificadores da Publicação
ISSN - 1359-7345

Editora
Royal Society of Chemistry (RSC)

Volume
51
Fascículo
85

Número de Páginas
3
Página Inicial
15596
Página Final
15599

Identificadores do Documento
DOI - https://doi.org/10.1039/c5cc06423f
URL - http://dx.doi.org/10.1039/c5cc06423f

Identificadores de Qualidade
Web Of Science Q1 (2020) - 6.222 - CHEMISTRY, MULTIDISCIPLINARY - SCIE
SCIMAGO Q1 (2020) - 1.837 - Chemistry (miscellaneous)


Exportar referência

APA
Nuno A. G. Bandeira, Somenath Garai, Achim Müller, Carles Bo, (2015). The mechanism of CO2 hydration: a porous metal oxide nanocapsule catalyst can mimic the biological carbonic anhydrase role. Chemical Communications, 51, 15596-15599. ISSN 1359-7345. eISSN . http://dx.doi.org/10.1039/c5cc06423f

IEEE
Nuno A. G. Bandeira, Somenath Garai, Achim Müller, Carles Bo, "The mechanism of CO2 hydration: a porous metal oxide nanocapsule catalyst can mimic the biological carbonic anhydrase role" in Chemical Communications, vol. 51, pp. 15596-15599, 2015. 10.1039/c5cc06423f

BIBTEX
@article{48897, author = {Nuno A. G. Bandeira and Somenath Garai and Achim Müller and Carles Bo}, title = {The mechanism of CO2 hydration: a porous metal oxide nanocapsule catalyst can mimic the biological carbonic anhydrase role}, journal = {Chemical Communications}, year = 2015, pages = {15596-15599}, volume = 51 }