Christian Serre
University of Notre Dame
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Archive | 2009
Thomas Devic; Christian Serre
Publisher Summary This chapter deals with a concise description of the porous Metal Organic Frameworks (MOFs), the youngest class of porous solids reported so far. Porous solids are important materials from an economic point of view as they are related to many industrial applications (catalysis, separation, fine chemistry, etc.). So far, research and applications have been focused on the zeolites, metalophosphates, activated carbons, or mesoporous solids. It is only recently that attention has been driven to a new class of porous solids, that is, hybrid inorganic–organic compounds, denoted MOFs (Metal Organic Frameworks) or PCPs (Porous Coordination Polymers). The MOFs are built up of inorganic sub-units (clusters, chains, layers or 3D arrangement) connected to organic linkers possessing complexing groups (carboxylates, phosphonates, N-containing compounds) by strong ionocovalent or dative bonds. More than a 1000 original structures have been reported and many are to come due to the almost endless possibilities of organic chemistry combined with the different chemistries of metals from all the periodic table. Despite their lower thermal and chemical stability, MOFs can be considered as a new complementary class of porous solids relative to their inorganic analogues (zeolites, metal phosphates, ordered mesoporous oxides). If some applications generally dedicated to zeolites reveal lower performance (catalysis), MOFs sometimes exhibit better results (adsorption).
Ordered Porous Solids#R##N#Recent Advances and Prospects | 2009
Thomas Devic; Christian Serre
Publisher Summary This chapter deals with a concise description of the porous Metal Organic Frameworks (MOFs), the youngest class of porous solids reported so far. Porous solids are important materials from an economic point of view as they are related to many industrial applications (catalysis, separation, fine chemistry, etc.). So far, research and applications have been focused on the zeolites, metalophosphates, activated carbons, or mesoporous solids. It is only recently that attention has been driven to a new class of porous solids, that is, hybrid inorganic–organic compounds, denoted MOFs (Metal Organic Frameworks) or PCPs (Porous Coordination Polymers). The MOFs are built up of inorganic sub-units (clusters, chains, layers or 3D arrangement) connected to organic linkers possessing complexing groups (carboxylates, phosphonates, N-containing compounds) by strong ionocovalent or dative bonds. More than a 1000 original structures have been reported and many are to come due to the almost endless possibilities of organic chemistry combined with the different chemistries of metals from all the periodic table. Despite their lower thermal and chemical stability, MOFs can be considered as a new complementary class of porous solids relative to their inorganic analogues (zeolites, metal phosphates, ordered mesoporous oxides). If some applications generally dedicated to zeolites reveal lower performance (catalysis), MOFs sometimes exhibit better results (adsorption).
Chemistry of Materials | 2000
Sambandan Ekambaram; Christian Serre; Gerard Ferey; Slavi C. Sevov
Archive | 2009
Jong-San Chang; Young Kyu Hwang; Sung Hwa Jhung; Do-Young Hong; You-Kyung Seo; Gerard Ferey; Christian Serre
Archive | 2007
Sung Hwa Jhung; Jong-San Chang; Young-Kyu Hwang; Christian Serre; Gerard Ferey
Archive | 2008
Cortes Patricia Horcajada; Gerard Ferey; Christian Serre; Ruxandra Gref; Patrick Couvreur
Archive | 2009
Russel Morris; Christian Serre; Cortes Patricia Horcajada; Alexandre Vimont; Thomas Devic; Gerard Ferey
Archive | 2008
Chang Jong San; Hwang Young Kyu; Jhung Sung Hwa; Hong Do Young; Kim Deok Kyu; Gerard Ferey; Christian Serre
8 thInternational Symposium on the Characterisation of Porous Solids | 2008
Lomig Hamon; Alexandre Vimont; Christian Serre; Thomas Devic; Aziz Ghoufi; Guillaume Maurin; Thierry Loiseau; Franck Millange; Marco Daturi; Gerard Ferey; Guy De Weireld
XVIII Encontro Luso Galego de Química | 2013
Patricia A. P. Mendes; José A.C. Silva; Alírio E. Rodrigues; Patricia Horacajada; Christian Serre