Please use this identifier to cite or link to this item: https://libjncir.jncasr.ac.in/xmlui/handle/10572/2936
Title: Hydroxy acids and related organic linkers for the synthesis of functional metal-organic frameworks and nanomaterials
Authors: Maji, Tapas Kumar
Mohapatra, Sudip
Keywords: Metal Organic framework
Nanomaterials
Issue Date: 2012
Publisher: Jawaharlal Nehru Centre for Advanced Scientific Research
Citation: Mohapatra, Sudip. 2012, Hydroxy acids and related organic linkers for the synthesis of functional metal-organic frameworks and nanomaterials, Ph.D. thesis, Jawaharlal Nehru Centre for Advanced Scientific Research, Bengaluru
Abstract: Until mid of 1990s there were two kind of porous materials, namely inorganic materials and carbon based materials. In case of microporous inorganic solids, the largest two subclasses of porous inorganic solids are aluminosilicates and aluminophosphates. Zeolites are 3D crystalline, hydrated alkaline or alkaline earth- alumina silicates with the general formula Mn+ x/n [(AlO2)x(SiO2)y]x-·wH2O.1,2 Their structure built from corner sharing TO4 tetrahedra (T = Al, Si), defines interconnected tunnels or cages in which water molecules or Mn+ ions are present. The porosity is generated after removal of the water molecules, without affecting its structure. The cavities were extensively exploited for the molecular sieving and catalytic activity. Synthetic zeolites, aluminophosphates (AlPO4s) were first observed in 1862 which consist of Al3+ and P5+ ion linked by corner sharing oxygen atoms.3 These are 3D neutral framework with channel and/or pores of molecular dimension. The first publication of crystalline microporous alumina phosphate appeared in 1982. Since 1982 not only crystalline oxide materials, silicoaluminophosphates, metallosilicates, metalloaluminophosphates, metallophosphates but also porous chalcogenides, nitrides, halides phosphates have also been observed. Another porous inorganic solid, activated carbon has high open porosity and high specific surface area, but have a disordered amorphous structure. The structural feature of activated carbon is a twisted network of defective hexagonal carbon layer, cross linked by aliphatic bridging groups.
Description: Open access
URI: https://libjncir.jncasr.ac.in/xmlui/handle/10572/2936
Appears in Collections:Student Theses (CPMU)

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