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Publication DateAdvanced Functional Materials, ISSN 1616-301X, 01/2014, Volume 24, Issue 3, pp. 303 - 311
Photocathodes based on cuprous oxide (Cu2O) are promising materials for large scale and widespread solar fuel generation due to the abundance of copper,...
cuprous oxide | water splitting | photocathodes | ruthenium oxide | solar fuel | hydrogen generation | CELLS | PHYSICS, CONDENSED MATTER | PHYSICS, APPLIED | STABILITY | MATERIALS SCIENCE, MULTIDISCIPLINARY | DIOXIDE | CHEMISTRY, PHYSICAL | NANOSCIENCE & NANOTECHNOLOGY | CHEMISTRY, MULTIDISCIPLINARY | CU2O | FILMS | ABSORBER | ELECTROCATALYSIS | TIO2 | Hydrogen as fuel | Ruthenium | Catalysis | Copper oxide | Hydrogen | Cuprite | Stability | CATHODES | Ruthenium oxide | COMPOSITES | Photocathodes | PHOTOELECTRIC EFFECT | Electrodes | HYDROGEN | Photocurrent | CUPROUS OXIDE | OXIDES | CATALYSTS | WATER
cuprous oxide | water splitting | photocathodes | ruthenium oxide | solar fuel | hydrogen generation | CELLS | PHYSICS, CONDENSED MATTER | PHYSICS, APPLIED | STABILITY | MATERIALS SCIENCE, MULTIDISCIPLINARY | DIOXIDE | CHEMISTRY, PHYSICAL | NANOSCIENCE & NANOTECHNOLOGY | CHEMISTRY, MULTIDISCIPLINARY | CU2O | FILMS | ABSORBER | ELECTROCATALYSIS | TIO2 | Hydrogen as fuel | Ruthenium | Catalysis | Copper oxide | Hydrogen | Cuprite | Stability | CATHODES | Ruthenium oxide | COMPOSITES | Photocathodes | PHOTOELECTRIC EFFECT | Electrodes | HYDROGEN | Photocurrent | CUPROUS OXIDE | OXIDES | CATALYSTS | WATER
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Loading RightsJournal of Luminescence, ISSN 0022-2313, 03/2017, Volume 183, Issue C, pp. 281 - 290
Phonons are produced when an excited vacancy in cuprous oxide (Cu O) relaxes. Time resolved luminescence was used to find the excited copper vacancy (acceptor)...
Stoichiometry | Exciton | Bound exciton | Vacancy | Cuprous oxide | Phonon | PHOTOLUMINESCENCE | EXCITON LUMINESCENCE | COPPER VACANCIES | PARAEXCITONS | PHONON EMISSION | CU2O | SPECTROSCOPY | CRYSTALS | OXYGEN VACANCIES | ABSORPTION | OPTICS | Electrical engineering | Copper oxide | Cuprite | Physics - Materials Science | stoichiometry | INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY | exciton | cuprous oxide | phonon | bound exciton | vacancy
Stoichiometry | Exciton | Bound exciton | Vacancy | Cuprous oxide | Phonon | PHOTOLUMINESCENCE | EXCITON LUMINESCENCE | COPPER VACANCIES | PARAEXCITONS | PHONON EMISSION | CU2O | SPECTROSCOPY | CRYSTALS | OXYGEN VACANCIES | ABSORPTION | OPTICS | Electrical engineering | Copper oxide | Cuprite | Physics - Materials Science | stoichiometry | INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY | exciton | cuprous oxide | phonon | bound exciton | vacancy
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Loading RightsAdvanced Materials, ISSN 0935-9648, 07/2014, Volume 26, Issue 27, pp. 4704 - 4710
The power conversion efficiency of solar cells based on copper (I) oxide (Cu2O) is enhanced by atomic layer deposition of a thin gallium oxide (Ga2O3) layer....
photovoltaic devices | solar cells | electro‐optical materials | charge transport | thin films | electro-optical materials | CU2O | RECOMBINATION | PHYSICS, CONDENSED MATTER | PHYSICS, APPLIED | MATERIALS SCIENCE, MULTIDISCIPLINARY | GA2O3 FILMS | PHOTOVOLTAICS | CHEMISTRY, PHYSICAL | NANOSCIENCE & NANOTECHNOLOGY | CHEMISTRY, MULTIDISCIPLINARY | Electric Power Supplies | Solar Energy | Copper - chemistry | Gallium - chemistry | Molecular Conformation | Models, Molecular | Buffers | Thin films | Solar cells | Dielectric films | Solar batteries | Copper oxide | Cuprite | Electric potential | VOLTAGE | Gallium oxides | CUPROUS OXIDE | Photovoltaic cells | PASSIVATION | DEPOSITION | OXIDES | COPPER OXIDE | Energy conversion efficiency
photovoltaic devices | solar cells | electro‐optical materials | charge transport | thin films | electro-optical materials | CU2O | RECOMBINATION | PHYSICS, CONDENSED MATTER | PHYSICS, APPLIED | MATERIALS SCIENCE, MULTIDISCIPLINARY | GA2O3 FILMS | PHOTOVOLTAICS | CHEMISTRY, PHYSICAL | NANOSCIENCE & NANOTECHNOLOGY | CHEMISTRY, MULTIDISCIPLINARY | Electric Power Supplies | Solar Energy | Copper - chemistry | Gallium - chemistry | Molecular Conformation | Models, Molecular | Buffers | Thin films | Solar cells | Dielectric films | Solar batteries | Copper oxide | Cuprite | Electric potential | VOLTAGE | Gallium oxides | CUPROUS OXIDE | Photovoltaic cells | PASSIVATION | DEPOSITION | OXIDES | COPPER OXIDE | Energy conversion efficiency
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Loading RightsAccounts of Chemical Research, ISSN 0001-4842, 03/2016, Volume 49, Issue 3, pp. 520 - 527
Model catalysts with uniform and well-defined surface structures have been extensively employed to explore structure–property relationships of powder...
GAS SHIFT REACTION | CU2O NANOCRYSTALS | DEPENDENT INTERPLAY | CUPROUS-OXIDE | CEO2 NANOCRYSTALS | OXYGEN VACANCIES | HETEROGENEOUS CATALYSIS | CO OXIDATION | CHEMISTRY, MULTIDISCIPLINARY | ELECTRONIC-STRUCTURE | SURFACES | Microscopy, Electron, Transmission | Microscopy, Electron, Scanning | Catalysis | Nanoparticles - chemistry | Oxides - chemistry | Surface Properties
GAS SHIFT REACTION | CU2O NANOCRYSTALS | DEPENDENT INTERPLAY | CUPROUS-OXIDE | CEO2 NANOCRYSTALS | OXYGEN VACANCIES | HETEROGENEOUS CATALYSIS | CO OXIDATION | CHEMISTRY, MULTIDISCIPLINARY | ELECTRONIC-STRUCTURE | SURFACES | Microscopy, Electron, Transmission | Microscopy, Electron, Scanning | Catalysis | Nanoparticles - chemistry | Oxides - chemistry | Surface Properties
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Loading RightsThe Journal of Physical Chemistry Letters, ISSN 1948-7185, 12/2012, Volume 3, Issue 24, pp. 3755 - 3764
Recently, a new field in photovoltaics (PV) has emerged, focusing on solar cells that are entirely based on metal oxide semiconductors. The all-oxide PV...
THIN-FILMS | DETAILED BALANCE LIMIT | MATERIALS SCIENCE, MULTIDISCIPLINARY | PHYSICS, ATOMIC, MOLECULAR & CHEMICAL | CHEMISTRY, PHYSICAL | NANOSCIENCE & NANOTECHNOLOGY | CU2O | SENSITIZED SOLAR-CELLS | SPRAY-PYROLYSIS DEPOSITION | CUPROUS-OXIDE | COMBINATORIAL | EFFICIENCY | METAL-OXIDES | TIO2
THIN-FILMS | DETAILED BALANCE LIMIT | MATERIALS SCIENCE, MULTIDISCIPLINARY | PHYSICS, ATOMIC, MOLECULAR & CHEMICAL | CHEMISTRY, PHYSICAL | NANOSCIENCE & NANOTECHNOLOGY | CU2O | SENSITIZED SOLAR-CELLS | SPRAY-PYROLYSIS DEPOSITION | CUPROUS-OXIDE | COMBINATORIAL | EFFICIENCY | METAL-OXIDES | TIO2
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Loading RightsElectrochimica Acta, ISSN 0013-4686, 01/2013, Volume 88, pp. 59 - 65
In this paper, three approaches including physical adsorption, in situ reduction, and one pot synthesis were developed to fabricate cuprous oxide–reduced...
Hydrogen peroxide | Electrochemical sensor | Cuprous oxide | Graphene | ELECTROCHEMISTRY | ONE-POT SYNTHESIS | SENSOR | COMPOSITE | CU2O | CARBON ELECTRODES | NANOPARTICLES | GLUCOSE | GROWTH | FABRICATION | NANOWIRES | Electrochemical reactions | Adsorption | Graphite | Chemical properties | Copper oxide | Cuprite | Nanotechnology
Hydrogen peroxide | Electrochemical sensor | Cuprous oxide | Graphene | ELECTROCHEMISTRY | ONE-POT SYNTHESIS | SENSOR | COMPOSITE | CU2O | CARBON ELECTRODES | NANOPARTICLES | GLUCOSE | GROWTH | FABRICATION | NANOWIRES | Electrochemical reactions | Adsorption | Graphite | Chemical properties | Copper oxide | Cuprite | Nanotechnology
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Loading RightsJournal of the American Chemical Society, ISSN 0002-7863, 07/2005, Volume 127, Issue 26, pp. 9506 - 9511
It is well-known that inorganic nanocrystals are a benchmark model for nanotechnology, given that the tunability of optical properties and the stabilization of...
NANOPARTICLES | PARTICLES | LUMINESCENCE | SPECTROSCOPY | CUPROUS-OXIDE | SIZE | CU-O | ABSORPTION | CHEMISTRY, MULTIDISCIPLINARY | MONODISPERSE NANOCRYSTALS | EXCITONS | Research | Chemical properties | Copper oxide | Nanotechnology
NANOPARTICLES | PARTICLES | LUMINESCENCE | SPECTROSCOPY | CUPROUS-OXIDE | SIZE | CU-O | ABSORPTION | CHEMISTRY, MULTIDISCIPLINARY | MONODISPERSE NANOCRYSTALS | EXCITONS | Research | Chemical properties | Copper oxide | Nanotechnology
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Loading RightsSensors & Actuators: B. Chemical, ISSN 0925-4005, 06/2016, Volume 229, pp. 57 - 62
In this contribution we investigate the effects of surface reactions of nitric oxide (NO) and nitrogen dioxide (NO ) on inkjet printed, p-type semiconducting...
Copper(II) oxide | NO2 sensing | NO sensing | Surface reactions | NO | sensing | THIN-FILMS | ELECTROCHEMISTRY | CHEMISTRY, ANALYTICAL | PERFORMANCE | SENSOR ARRAY | SENSING PROPERTIES | NO2 | INSTRUMENTS & INSTRUMENTATION | REDUCTION | NH3 | SELECTIVE DETECTION | CUO | METAL-OXIDES | Electrical conductivity | Nitric oxide | Sensors | Copper oxide | Nitrogen dioxide | Cuprite | Electric properties | ELECTRICAL CONDUCTIVITY | CUPRIC OXIDE | COPPER OXIDE | Metal oxides | ELECTRONIC PRODUCTS | Electrical resistivity | Modulation | NITROGEN | Oxidation | OXIDES | Gas sensors
Copper(II) oxide | NO2 sensing | NO sensing | Surface reactions | NO | sensing | THIN-FILMS | ELECTROCHEMISTRY | CHEMISTRY, ANALYTICAL | PERFORMANCE | SENSOR ARRAY | SENSING PROPERTIES | NO2 | INSTRUMENTS & INSTRUMENTATION | REDUCTION | NH3 | SELECTIVE DETECTION | CUO | METAL-OXIDES | Electrical conductivity | Nitric oxide | Sensors | Copper oxide | Nitrogen dioxide | Cuprite | Electric properties | ELECTRICAL CONDUCTIVITY | CUPRIC OXIDE | COPPER OXIDE | Metal oxides | ELECTRONIC PRODUCTS | Electrical resistivity | Modulation | NITROGEN | Oxidation | OXIDES | Gas sensors
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Loading RightsVacuum, ISSN 0042-207X, 2008, Volume 82, Issue 6, pp. 623 - 629
Thin films of copper oxide were deposited by thermal evaporation of cuprous oxide (Cu O) powder. The substrates were either unheated or heated to a temperature...
Annealing | Cuprous oxide | Optical properties | Chemical properties | Copper oxide | Cupric oxide | Structural properties | Thermal evaporation | OXIDATION | copper oxide | PHYSICS, APPLIED | MATERIALS SCIENCE, MULTIDISCIPLINARY | chemical properties | cupric oxide | OPTICAL-PROPERTIES | cuprous oxide | annealing | structural properties | optical properties | REDUCTION | XPS | thermal evaporation | CUO | Thin films | Dielectric films | Cuprite
Annealing | Cuprous oxide | Optical properties | Chemical properties | Copper oxide | Cupric oxide | Structural properties | Thermal evaporation | OXIDATION | copper oxide | PHYSICS, APPLIED | MATERIALS SCIENCE, MULTIDISCIPLINARY | chemical properties | cupric oxide | OPTICAL-PROPERTIES | cuprous oxide | annealing | structural properties | optical properties | REDUCTION | XPS | thermal evaporation | CUO | Thin films | Dielectric films | Cuprite
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Loading RightsJournal of Colloid And Interface Science, ISSN 0021-9797, 01/2019, Volume 533, pp. 13 - 23
Stable reduced graphene oxide-cuprous oxide (rGO-Cu O) nanocomposites with long-term antibacterial activities were prepared by reducing copper sulfate...
Long-Term | rGO-Cu2O nanocomposites | Antibacterial | rGO-Cu | O nanocomposites | GRAFTED CARBON NANOTUBES | SIZE | CHEMISTRY, PHYSICAL | COMPOSITES | PHOTOANODES | Long -Term | SILVER NANOPARTICLES | PHOTOCATALYTIC ACTIVITY | GREEN SYNTHESIS | SURFACE | FABRICATION | MORPHOLOGY | Nanocomposites - chemistry | Nanoparticles - chemistry | Oxidation-Reduction | Drug Stability | Escherichia coli - drug effects | Oxides - chemistry | Copper - pharmacology | Microbial Sensitivity Tests | Particle Size | Oxides - pharmacology | Copper - chemistry | Anti-Bacterial Agents - chemistry | Surface Properties | Anti-Bacterial Agents - pharmacology | Graphite - chemistry | Staphylococcus aureus - drug effects | Graphite - pharmacology | Phosphates | Hydroxides | Escherichia coli | Green technology | Aluminum compounds | Sulfates | Antibacterial agents | Polyols | Cuprite | Organic acids | Nanoparticles | Graphene | Polyethylene glycol | Graphite | Copper oxide
Long-Term | rGO-Cu2O nanocomposites | Antibacterial | rGO-Cu | O nanocomposites | GRAFTED CARBON NANOTUBES | SIZE | CHEMISTRY, PHYSICAL | COMPOSITES | PHOTOANODES | Long -Term | SILVER NANOPARTICLES | PHOTOCATALYTIC ACTIVITY | GREEN SYNTHESIS | SURFACE | FABRICATION | MORPHOLOGY | Nanocomposites - chemistry | Nanoparticles - chemistry | Oxidation-Reduction | Drug Stability | Escherichia coli - drug effects | Oxides - chemistry | Copper - pharmacology | Microbial Sensitivity Tests | Particle Size | Oxides - pharmacology | Copper - chemistry | Anti-Bacterial Agents - chemistry | Surface Properties | Anti-Bacterial Agents - pharmacology | Graphite - chemistry | Staphylococcus aureus - drug effects | Graphite - pharmacology | Phosphates | Hydroxides | Escherichia coli | Green technology | Aluminum compounds | Sulfates | Antibacterial agents | Polyols | Cuprite | Organic acids | Nanoparticles | Graphene | Polyethylene glycol | Graphite | Copper oxide
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Loading RightsMaterials Science & Engineering B, ISSN 0921-5107, 08/2016, Volume 210, pp. 10 - 18
An electrochemical sensor using copper (I) oxide nanostructure decorated reduced graphene oxide (rGO) nanocomposite has been proposed for selective detection...
Dopamine | Reduced graphene oxide | Electrochemical sensor | Copper (I) oxide | PHYSICS, CONDENSED MATTER | PERFORMANCE | MATERIALS SCIENCE, MULTIDISCIPLINARY | NANOCRYSTALS | SENSOR | ASCORBIC-ACID | CU2O | NANOPARTICLES | SHAPE | REDUCTION | METAL | URIC-ACID | Phenols | Uric acid | Copper oxide | Graphene | Cuprite | Graphite | Infrared spectroscopy | Fourier transforms | COMPOSITES | Nanostructure | ELECTRICAL CONDUCTIVITY | COPPER OXIDE | MICROSTRUCTURES | CUPROUS OXIDE | Nanocomposites | OXIDES | Detection | MICA
Dopamine | Reduced graphene oxide | Electrochemical sensor | Copper (I) oxide | PHYSICS, CONDENSED MATTER | PERFORMANCE | MATERIALS SCIENCE, MULTIDISCIPLINARY | NANOCRYSTALS | SENSOR | ASCORBIC-ACID | CU2O | NANOPARTICLES | SHAPE | REDUCTION | METAL | URIC-ACID | Phenols | Uric acid | Copper oxide | Graphene | Cuprite | Graphite | Infrared spectroscopy | Fourier transforms | COMPOSITES | Nanostructure | ELECTRICAL CONDUCTIVITY | COPPER OXIDE | MICROSTRUCTURES | CUPROUS OXIDE | Nanocomposites | OXIDES | Detection | MICA
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Loading RightsJOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY, ISSN 1533-4880, 08/2019, Volume 19, Issue 8, pp. 5295 - 5302
Three dimensional heterostructure of CuO nanoparticle decorated reduced graphene oxide (rGO) was prepared by a facile and cost-effective technique. The...
Cupric Oxide | PHYSICS, CONDENSED MATTER | PHYSICS, APPLIED | PERFORMANCE | MATERIALS SCIENCE, MULTIDISCIPLINARY | NANOMATERIALS | NANOSCIENCE & NANOTECHNOLOGY | SENSORS | CHEMISTRY, MULTIDISCIPLINARY | COMPOSITE | Non-Enzymatic Sensor | NANOPARTICLES | FACILE SYNTHESIS | REDUCTION | HYDROGEN-PEROXIDE | CUO | ELECTRODEPOSITION | Graphene Oxide | H2O2 Sensor | Electrochemical analysis | Hydrogen peroxide | Dopamine | Ascorbic acid | Selectivity | Uric acid | Nanoparticles | Image analysis | Transmission electron microscopy | Graphene | Morphology | Electrolytes | Image transmission | Copper oxides | Heterostructures | Electrons
Cupric Oxide | PHYSICS, CONDENSED MATTER | PHYSICS, APPLIED | PERFORMANCE | MATERIALS SCIENCE, MULTIDISCIPLINARY | NANOMATERIALS | NANOSCIENCE & NANOTECHNOLOGY | SENSORS | CHEMISTRY, MULTIDISCIPLINARY | COMPOSITE | Non-Enzymatic Sensor | NANOPARTICLES | FACILE SYNTHESIS | REDUCTION | HYDROGEN-PEROXIDE | CUO | ELECTRODEPOSITION | Graphene Oxide | H2O2 Sensor | Electrochemical analysis | Hydrogen peroxide | Dopamine | Ascorbic acid | Selectivity | Uric acid | Nanoparticles | Image analysis | Transmission electron microscopy | Graphene | Morphology | Electrolytes | Image transmission | Copper oxides | Heterostructures | Electrons
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Journal of Physics Condensed Matter, ISSN 0953-8984, 07/2016, Volume 28, Issue 38, p. 383002
Transparent conducting oxides constitute a unique class of materials combining properties of electrical conductivity and optical transparency in a single...
thin film transistor | oxide semiconductor | metal oxide | cuprous oxide | delafossite | photovoltaics | transparent conducting oxide | PHYSICS, CONDENSED MATTER | ROOM-TEMPERATURE FABRICATION | N HETEROJUNCTION | NICKEL-OXIDE | BAND-GAP | ELECTRICAL-CONDUCTION | CUPROUS-OXIDE | X-RAY PHOTOEMISSION | THIN-FILM TRANSISTORS | ELECTRONIC-STRUCTURE | METAL-OXIDES
thin film transistor | oxide semiconductor | metal oxide | cuprous oxide | delafossite | photovoltaics | transparent conducting oxide | PHYSICS, CONDENSED MATTER | ROOM-TEMPERATURE FABRICATION | N HETEROJUNCTION | NICKEL-OXIDE | BAND-GAP | ELECTRICAL-CONDUCTION | CUPROUS-OXIDE | X-RAY PHOTOEMISSION | THIN-FILM TRANSISTORS | ELECTRONIC-STRUCTURE | METAL-OXIDES
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Loading RightsNature Materials, ISSN 1476-1122, 06/2011, Volume 10, Issue 6, pp. 456 - 461
A clean and efficient way to overcome the limited supply of fossil fuels and the greenhouse effect is the production of hydrogen fuel from sunlight and water...
Water | Fossil fuels | Decomposition | Greenhouse effect | Hydrogen | Hydrogen fuels | CATHODES | SEMICONDUCTORS | ELECTRODES | Nanostructure | Photocathodes | MICROSTRUCTURES | Reduction (electrolytic) | CUPROUS OXIDE | Sunlight | OXIDES | ELECTRODEPOSITION | MICA | FUELS | WATER
Water | Fossil fuels | Decomposition | Greenhouse effect | Hydrogen | Hydrogen fuels | CATHODES | SEMICONDUCTORS | ELECTRODES | Nanostructure | Photocathodes | MICROSTRUCTURES | Reduction (electrolytic) | CUPROUS OXIDE | Sunlight | OXIDES | ELECTRODEPOSITION | MICA | FUELS | WATER
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Loading RightsChemSusChem, ISSN 1864-5631, 10/2016, Volume 9, Issue 20, pp. 3012 - 3018
Cupric oxide (CuO), a narrow‐bandgap semiconductor, has a band alignment that makes it an ideal photocathode for the renewable production of solar fuels....
doping | copper | metal oxides | water splitting | photocathodes | Metal oxides | Water splitting | Copper | Photocathodes | Doping | THIN-FILMS | GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY | SOLAR-CELLS | PERFORMANCE | NANOWIRE ARRAYS | CHEMISTRY, MULTIDISCIPLINARY | COMPOSITE | HYDROGEN EVOLUTION | PHOTOCATHODE | HEMATITE | ELECTRODE | CUO | Copper oxide | Hydrogen | Cuprite | Electric properties | CATHODES | Architecture | SEMICONDUCTORS | Hydrogen evolution | Nanostructure | CUPRIC OXIDE | PORE SIZE AND SHAPE | MICROSTRUCTURES | Tin oxides | DOPING | COATINGS | OXIDES | Copper oxides | MICA | WATER
doping | copper | metal oxides | water splitting | photocathodes | Metal oxides | Water splitting | Copper | Photocathodes | Doping | THIN-FILMS | GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY | SOLAR-CELLS | PERFORMANCE | NANOWIRE ARRAYS | CHEMISTRY, MULTIDISCIPLINARY | COMPOSITE | HYDROGEN EVOLUTION | PHOTOCATHODE | HEMATITE | ELECTRODE | CUO | Copper oxide | Hydrogen | Cuprite | Electric properties | CATHODES | Architecture | SEMICONDUCTORS | Hydrogen evolution | Nanostructure | CUPRIC OXIDE | PORE SIZE AND SHAPE | MICROSTRUCTURES | Tin oxides | DOPING | COATINGS | OXIDES | Copper oxides | MICA | WATER
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