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Publication DateApplied Catalysis A, General, ISSN 0926-860X, 01/2015, Volume 489, pp. 1 - 16
The design and development of efficient TiO -based, hybrid, nanostructured photocatalysts has recently been receiving substantial attention for environmental...
REDUCED GRAPHENE OXIDE | ENVIRONMENTAL SCIENCES | DOPED TIO2 | CHEMICAL OXIDATIVE POLYMERIZATION | CARBON NANOTUBE | METHYL-ORANGE | ANATASE TIO2 | CHEMISTRY, PHYSICAL | EXPOSED 001 FACETS | VISIBLE-LIGHT PHOTODEGRADATION | IN-SITU SYNTHESIS | TIO2 NANOTUBE ARRAYS | Catalysis | Nanotubes | Boron nitride | Azo compounds | Ethylenediamines | Aniline | Oxalic acid | Graphene | Concerts | Graphite | Oxalates | Concert reviews | Methyl methacrylate | Titanium dioxide | Receiving | Catalysts | Photocatalysis | Nanostructure | Carbon | Photocatalysts
REDUCED GRAPHENE OXIDE | ENVIRONMENTAL SCIENCES | DOPED TIO2 | CHEMICAL OXIDATIVE POLYMERIZATION | CARBON NANOTUBE | METHYL-ORANGE | ANATASE TIO2 | CHEMISTRY, PHYSICAL | EXPOSED 001 FACETS | VISIBLE-LIGHT PHOTODEGRADATION | IN-SITU SYNTHESIS | TIO2 NANOTUBE ARRAYS | Catalysis | Nanotubes | Boron nitride | Azo compounds | Ethylenediamines | Aniline | Oxalic acid | Graphene | Concerts | Graphite | Oxalates | Concert reviews | Methyl methacrylate | Titanium dioxide | Receiving | Catalysts | Photocatalysis | Nanostructure | Carbon | Photocatalysts
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Loading RightsChemSusChem, ISSN 1864-5631, 09/2018, Volume 11, Issue 18, pp. 3023 - 3047
Environmental and energy problems have drawn much attention owing to rapid population growth and accelerated economic development. For instance,...
charge separation | energy conversion | photocatalysis | nanostructures | titanium | REDUCED GRAPHENE OXIDE | THIN-FILMS | GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY | INTERFACIAL CHARGE-TRANSFER | CHEMISTRY, MULTIDISCIPLINARY | STEP HYDROTHERMAL SYNTHESIS | NITROGEN-DOPED TIO2 | WASTE-WATER | HYDROGEN-PRODUCTION | ATOMIC LAYER DEPOSITION | TIO2 NANOTUBE ARRAYS | VISIBLE-LIGHT IRRADIATION | Titanium dioxide | Solar energy | Literature reviews | Population growth | Absorption | Light irradiation | Photocatalysis | Energy conversion | Titanium | Nanomaterials | Catalytic activity | Environmental impact | Economic development | Chemical Sciences
charge separation | energy conversion | photocatalysis | nanostructures | titanium | REDUCED GRAPHENE OXIDE | THIN-FILMS | GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY | INTERFACIAL CHARGE-TRANSFER | CHEMISTRY, MULTIDISCIPLINARY | STEP HYDROTHERMAL SYNTHESIS | NITROGEN-DOPED TIO2 | WASTE-WATER | HYDROGEN-PRODUCTION | ATOMIC LAYER DEPOSITION | TIO2 NANOTUBE ARRAYS | VISIBLE-LIGHT IRRADIATION | Titanium dioxide | Solar energy | Literature reviews | Population growth | Absorption | Light irradiation | Photocatalysis | Energy conversion | Titanium | Nanomaterials | Catalytic activity | Environmental impact | Economic development | Chemical Sciences
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Loading RightsChemPhysChem, ISSN 1439-4235, 08/2012, Volume 13, Issue 12, pp. 2824 - 2875
Several of the multiple applications of titanium dioxide nanomaterials are directly related to the introduction or generation of charge carriers in the oxide....
titanium dioxide | electrochemistry | heterogeneous catalysis | photochemistry | nanostructures | CHARGE-TRANSPORT PROPERTIES | CHEMICAL-VAPOR-DEPOSITION | CONDUCTION-BAND ELECTRONS | PHYSICS, ATOMIC, MOLECULAR & CHEMICAL | CHEMISTRY, PHYSICAL | DIFFERENT ORGANIC-COMPOUNDS | ASSISTED PHOTOCATALYTIC DEGRADATION | THIN-FILM ELECTRODES | SENSITIZED SOLAR-CELLS | ENHANCED PHOTOELECTROCATALYTIC DEGRADATION | COMPOSITE POLYMER ELECTROLYTES | TIO2 NANOTUBE ARRAYS | Electrodes | Electrochemistry | Heterogeneous catalysis | Electrochemical reactions | Titanium dioxide | Nanotechnology
titanium dioxide | electrochemistry | heterogeneous catalysis | photochemistry | nanostructures | CHARGE-TRANSPORT PROPERTIES | CHEMICAL-VAPOR-DEPOSITION | CONDUCTION-BAND ELECTRONS | PHYSICS, ATOMIC, MOLECULAR & CHEMICAL | CHEMISTRY, PHYSICAL | DIFFERENT ORGANIC-COMPOUNDS | ASSISTED PHOTOCATALYTIC DEGRADATION | THIN-FILM ELECTRODES | SENSITIZED SOLAR-CELLS | ENHANCED PHOTOELECTROCATALYTIC DEGRADATION | COMPOSITE POLYMER ELECTROLYTES | TIO2 NANOTUBE ARRAYS | Electrodes | Electrochemistry | Heterogeneous catalysis | Electrochemical reactions | Titanium dioxide | Nanotechnology
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