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Periodic mesoporous organosilicas: hybrid porous materials with exciting applications

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Abstract
Periodic Mesoporous Organosilicas or commonly named “PMOs” constitute of a new family of functional hybrid materials where organic groups are covalently integrated within the pore walls of a silica framework. With well-defined pore structures and unique properties, they combine the structural characteristics of ordered mesoporous silicas with the chemical functionalization possibilities of organic groups. These advantages convert these materials into promising candidates in areas such as catalysis, adsorption, nanoelectronics, and chromatography, among others. In this chapter, we will give an overview of all these applications where PMOs with specific functional groups have been successfully reported.

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MLA
De Canck, Els, et al. “Periodic Mesoporous Organosilicas: Hybrid Porous Materials with Exciting Applications.” Comprehensive Guide for Mesoporous Materials, Volume 4 : Application and Commercialization, edited by Mahmood Aliofkhazraei, Nova Science, 2015, pp. 197–230.
APA
De Canck, E., Esquivel Merino, M. D., Romero-Salguero, F. J., & Van Der Voort, P. (2015). Periodic mesoporous organosilicas: hybrid porous materials with exciting applications. In M. Aliofkhazraei (Ed.), Comprehensive guide for mesoporous materials, volume 4 : application and commercialization (pp. 197–230). New York, NY, USA: Nova Science.
Chicago author-date
De Canck, Els, Maria Dolores Esquivel Merino, Francisco Jose Romero-Salguero, and Pascal Van Der Voort. 2015. “Periodic Mesoporous Organosilicas: Hybrid Porous Materials with Exciting Applications.” In Comprehensive Guide for Mesoporous Materials, Volume 4 : Application and Commercialization, edited by Mahmood Aliofkhazraei, 197–230. New York, NY, USA: Nova Science.
Chicago author-date (all authors)
De Canck, Els, Maria Dolores Esquivel Merino, Francisco Jose Romero-Salguero, and Pascal Van Der Voort. 2015. “Periodic Mesoporous Organosilicas: Hybrid Porous Materials with Exciting Applications.” In Comprehensive Guide for Mesoporous Materials, Volume 4 : Application and Commercialization, ed by. Mahmood Aliofkhazraei, 197–230. New York, NY, USA: Nova Science.
Vancouver
1.
De Canck E, Esquivel Merino MD, Romero-Salguero FJ, Van Der Voort P. Periodic mesoporous organosilicas: hybrid porous materials with exciting applications. In: Aliofkhazraei M, editor. Comprehensive guide for mesoporous materials, volume 4 : application and commercialization. New York, NY, USA: Nova Science; 2015. p. 197–230.
IEEE
[1]
E. De Canck, M. D. Esquivel Merino, F. J. Romero-Salguero, and P. Van Der Voort, “Periodic mesoporous organosilicas: hybrid porous materials with exciting applications,” in Comprehensive guide for mesoporous materials, volume 4 : application and commercialization, M. Aliofkhazraei, Ed. New York, NY, USA: Nova Science, 2015, pp. 197–230.
@incollection{5931050,
  abstract     = {{Periodic Mesoporous Organosilicas or commonly named “PMOs” constitute of a new family of functional hybrid materials where organic groups are covalently integrated within the pore walls of a silica framework. With well-defined pore structures and unique properties, they combine the structural characteristics of ordered mesoporous silicas with the chemical functionalization possibilities of organic groups. These advantages convert these materials into promising candidates in areas such as catalysis, adsorption, nanoelectronics, and chromatography, among others. In this chapter, we will give an overview of all these applications where PMOs with specific functional groups have been successfully reported.}},
  author       = {{De Canck, Els and Esquivel Merino, Maria Dolores and Romero-Salguero, Francisco Jose and Van Der Voort, Pascal}},
  booktitle    = {{Comprehensive guide for mesoporous materials, volume 4 : application and commercialization}},
  editor       = {{Aliofkhazraei, Mahmood}},
  isbn         = {{9781634820936}},
  language     = {{eng}},
  pages        = {{197--230}},
  publisher    = {{Nova Science}},
  title        = {{Periodic mesoporous organosilicas: hybrid porous materials with exciting applications}},
  year         = {{2015}},
}