Mesoporous hybrid thin films: Building blocks for complex materials with spatial organization
Mesoporous Hybrid Thin Films (MHTF) of a variety of compositions and embedded organic functions are produced by combining sol-gel synthesis, template self-assembly and surface modification. One-pot or post-grafting strategies permit to modify the pore surface behavior. Highly controlled MHTF issued...
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2008
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Acceso en línea: | https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_02729172_v1007_n_p75_SolerIllia http://hdl.handle.net/20.500.12110/paper_02729172_v1007_n_p75_SolerIllia |
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paper:paper_02729172_v1007_n_p75_SolerIllia2023-06-08T15:25:26Z Mesoporous hybrid thin films: Building blocks for complex materials with spatial organization Building materials Chemical vapor deposition Chlorine compounds Colloids Complexation Crystal chemistry Dissolution Film preparation Films Gelation Mesoporous materials Photonic crystals Reconnaissance aircraft Self assembly Thick films Thin films Building Blocks Complex materials Complex structures Film deposition Hybrid thin films Materials Research Society Mesoporous Modular synthesis Multi scaling Multilayer stacking One-pot Organic/inorganic hybrid materials Pore surfaces Selective functionalization Self- assemblies Sol-gel synthesis Spatial organizations Surface modification. Hybrid materials Mesoporous Hybrid Thin Films (MHTF) of a variety of compositions and embedded organic functions are produced by combining sol-gel synthesis, template self-assembly and surface modification. One-pot or post-grafting strategies permit to modify the pore surface behavior. Highly controlled MHTF issued from a reproducible and modular synthesis can be used as building blocks for more complex structures, presenting order at larger scales, and novel properties derived from this multiscale order. Multilayer stacks of MHTF presenting specific and different functions and frameworks located in a well-defined position have been produced by combining sequential film deposition, selective functionalization and dissolution. These systems present new properties such as localized chemistry or modulable photonic crystal behavior. © 2007 Materials Research Society. 2008 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_02729172_v1007_n_p75_SolerIllia http://hdl.handle.net/20.500.12110/paper_02729172_v1007_n_p75_SolerIllia |
institution |
Universidad de Buenos Aires |
institution_str |
I-28 |
repository_str |
R-134 |
collection |
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) |
topic |
Building materials Chemical vapor deposition Chlorine compounds Colloids Complexation Crystal chemistry Dissolution Film preparation Films Gelation Mesoporous materials Photonic crystals Reconnaissance aircraft Self assembly Thick films Thin films Building Blocks Complex materials Complex structures Film deposition Hybrid thin films Materials Research Society Mesoporous Modular synthesis Multi scaling Multilayer stacking One-pot Organic/inorganic hybrid materials Pore surfaces Selective functionalization Self- assemblies Sol-gel synthesis Spatial organizations Surface modification. Hybrid materials |
spellingShingle |
Building materials Chemical vapor deposition Chlorine compounds Colloids Complexation Crystal chemistry Dissolution Film preparation Films Gelation Mesoporous materials Photonic crystals Reconnaissance aircraft Self assembly Thick films Thin films Building Blocks Complex materials Complex structures Film deposition Hybrid thin films Materials Research Society Mesoporous Modular synthesis Multi scaling Multilayer stacking One-pot Organic/inorganic hybrid materials Pore surfaces Selective functionalization Self- assemblies Sol-gel synthesis Spatial organizations Surface modification. Hybrid materials Mesoporous hybrid thin films: Building blocks for complex materials with spatial organization |
topic_facet |
Building materials Chemical vapor deposition Chlorine compounds Colloids Complexation Crystal chemistry Dissolution Film preparation Films Gelation Mesoporous materials Photonic crystals Reconnaissance aircraft Self assembly Thick films Thin films Building Blocks Complex materials Complex structures Film deposition Hybrid thin films Materials Research Society Mesoporous Modular synthesis Multi scaling Multilayer stacking One-pot Organic/inorganic hybrid materials Pore surfaces Selective functionalization Self- assemblies Sol-gel synthesis Spatial organizations Surface modification. Hybrid materials |
description |
Mesoporous Hybrid Thin Films (MHTF) of a variety of compositions and embedded organic functions are produced by combining sol-gel synthesis, template self-assembly and surface modification. One-pot or post-grafting strategies permit to modify the pore surface behavior. Highly controlled MHTF issued from a reproducible and modular synthesis can be used as building blocks for more complex structures, presenting order at larger scales, and novel properties derived from this multiscale order. Multilayer stacks of MHTF presenting specific and different functions and frameworks located in a well-defined position have been produced by combining sequential film deposition, selective functionalization and dissolution. These systems present new properties such as localized chemistry or modulable photonic crystal behavior. © 2007 Materials Research Society. |
title |
Mesoporous hybrid thin films: Building blocks for complex materials with spatial organization |
title_short |
Mesoporous hybrid thin films: Building blocks for complex materials with spatial organization |
title_full |
Mesoporous hybrid thin films: Building blocks for complex materials with spatial organization |
title_fullStr |
Mesoporous hybrid thin films: Building blocks for complex materials with spatial organization |
title_full_unstemmed |
Mesoporous hybrid thin films: Building blocks for complex materials with spatial organization |
title_sort |
mesoporous hybrid thin films: building blocks for complex materials with spatial organization |
publishDate |
2008 |
url |
https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_02729172_v1007_n_p75_SolerIllia http://hdl.handle.net/20.500.12110/paper_02729172_v1007_n_p75_SolerIllia |
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1768546627901980672 |