Nome |
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Advances in photocatalytic NOx abatement through the use of Fe2O3/TiO2 nanocomposites, file e14fb269-a043-3de1-e053-1705fe0ac030
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311
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XPS analysis of Fe2O3-TiO2-Au nanocomposites prepared by a plasma-assisted route, file e14fb269-9e43-3de1-e053-1705fe0ac030
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254
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Magnetic properties of epsilon iron(III) oxide nanorod arrays functionalized with gold and copper(II) oxide, file e14fb26a-9152-3de1-e053-1705fe0ac030
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200
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Manganese(II) Molecular Sources for Plasma-Assisted CVD of Mn Oxides and Fluorides: From Precursors to Growth Process, file e14fb26a-8e07-3de1-e053-1705fe0ac030
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184
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Structure and properties of Mn3O4 thin films grown on single crystal substrates by chemical vapor deposition, file e14fb26b-a937-3de1-e053-1705fe0ac030
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177
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Gold nanoparticles as markers for fluorinated surfaces containing embedded amide groups, file e14fb26a-9196-3de1-e053-1705fe0ac030
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172
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Insights into the Plasma-Assisted Fabrication and Nanoscopic Investigation of Tailored MnO2 Nanomaterials, file e14fb26b-7fdb-3de1-e053-1705fe0ac030
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164
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Molecular Engineering of Mn(II) Diamine Diketonate Precursors for the Vapor Deposition of Manganese Oxide Nanostructures, file e14fb26a-935a-3de1-e053-1705fe0ac030
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163
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A study of Pt-/alpha-Fe2O3 nanocomposites by XPS, file e14fb269-ef35-3de1-e053-1705fe0ac030
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150
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WO3-decorated ZnO nanostructures for light-activated applications, file e14fb26a-911a-3de1-e053-1705fe0ac030
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129
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Multi-functional MnO2 nanomaterials for photo-activated applications by a plasma-assisted fabrication route, file e14fb26b-a935-3de1-e053-1705fe0ac030
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80
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Hydrogen gas sensing performances of p-type Mn3O4 nanosystems: The role of built-in Mn3O4/Ag and Mn3O4/SnO2 junctions, file e14fb26d-2a11-3de1-e053-1705fe0ac030
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57
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Plasma‐assisted chemical vapor deposition of F‐doped MnO2 nanostructures on single crystal substrates, file e14fb26d-2a19-3de1-e053-1705fe0ac030
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37
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Fe2O3-WO3 and Fe2O3-CuO nanoheterostructures by XPS, file e14fb26f-56e8-3de1-e053-1705fe0ac030
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28
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The Early Steps of Molecule-to-Material Conversion in Chemical Vapor Deposition (CVD): A Case Study, file e14fb26e-d3b4-3de1-e053-1705fe0ac030
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16
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Selective anodes for seawater splitting via functionalization of manganese oxides by a plasma-assisted process, file 7033e356-eea9-4d9c-bc66-650a1e6c6740
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15
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Plasma-Assisted Growth of β-MnO2 Nanosystems as Gas Sensors for Safety and Food Industry Applications, file e14fb26b-7fd7-3de1-e053-1705fe0ac030
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15
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Nanoarchitectonics of metal oxide materials for sustainable technologies and environmental applications, file ad70eae9-983f-4513-9a2f-1c3d8f88409f
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14
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Gold nanoparticles as markers for fluorinated surfaces containing embedded amide groups, file e14fb26a-9488-3de1-e053-1705fe0ac030
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14
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Nitrate and Nitrite Electrocatalytic Reduction at Layer-by-Layer Films Composed of Dawson-type Heteropolyanions Mono-substituted with Transitional Metal Ions and Silver Nanoparticles, file e14fb268-82bf-3de1-e053-1705fe0ac030
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13
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A Cu(ii)-MOF based on a propargyl carbamate-functionalized isophthalate ligand, file e14fb26e-e9ba-3de1-e053-1705fe0ac030
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13
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Photocatalytic and antibacterial activity of TiO2 and Au/TiO2 nanosystems, file e14fb267-8958-3de1-e053-1705fe0ac030
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11
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Fluorine doped Fe2O3 nanostructures by a one-pot plasma-assisted strategy, file e14fb267-a42d-3de1-e053-1705fe0ac030
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10
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MODELING THE FIRST ACTIVATION STAGES OF THE
Fe(hfa)2TMEDA CVD PRECURSOR ON A HEATED GROWTH
SURFACE, file e14fb268-8111-3de1-e053-1705fe0ac030
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9
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On the use of Fe(dpm)3
as precursor for the thermal-CVD growth of hematite
nanostructures, file e14fb269-910e-3de1-e053-1705fe0ac030
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9
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Au–Manganese Oxide Nanostructures by a Plasma‐Assisted Process as Electrocatalysts for Oxygen Evolution: A Chemico‐Physical Investigation, file e14fb26d-3543-3de1-e053-1705fe0ac030
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9
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Sensing Nitrogen Mustard Gas Simulant at the ppb Scale via Selective Dual-Site Activation at Au/Mn3O4 Interfaces, file e14fb26c-2174-3de1-e053-1705fe0ac030
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8
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PECVD of hematite nanoblades and nanocolumns: synthesis, characterization and growth model; 2015, file e14fb268-82bc-3de1-e053-1705fe0ac030
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7
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Doping of TiO2 as a tool to optimize the water splitting efficiencies of titania–hematite photoanodes, file e14fb26a-8eb4-3de1-e053-1705fe0ac030
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7
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Tailored Fabrication of Transferable and Hollow Weblike Titanium Dioxide Structures, file e14fb26a-999a-3de1-e053-1705fe0ac030
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6
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An old workhorse for new applications: Fe(dpm)3 as a precursor for low-temperature PECVD of iron(iii) oxide, file e14fb267-acc9-3de1-e053-1705fe0ac030
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5
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WO3-decorated ZnO nanostructures for light-activated applications, file e14fb26a-97eb-3de1-e053-1705fe0ac030
|
5
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Controllable vapor phase fabrication of F:Mn3O4 thin films functionalized with Ag and TiO2, file e14fb26b-5d63-3de1-e053-1705fe0ac030
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5
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Sensing Nitrogen Mustard Gas Simulant at the ppb Scale via Selective Dual-Site Activation at Au/Mn3O4 Interfaces, file e14fb26c-2173-3de1-e053-1705fe0ac030
|
5
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Nanoscale Mn3O4 Thin Film Photoelectrodes Fabricated by a Vapor-Phase Route, file e14fb26c-4773-3de1-e053-1705fe0ac030
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5
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Hydrogen gas sensing performances of p-type Mn3O4 nanosystems: The role of built-in Mn3O4/Ag and Mn3O4/SnO2 junctions, file e14fb26d-2a12-3de1-e053-1705fe0ac030
|
5
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Engineering Au/MnO2hierarchical nanoarchitectures for ethanol electrochemical valorization, file e14fb26d-2a13-3de1-e053-1705fe0ac030
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5
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Engineering Au/MnO2hierarchical nanoarchitectures for ethanol electrochemical valorization, file e14fb26d-2a14-3de1-e053-1705fe0ac030
|
5
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Au–Manganese Oxide Nanostructures by a Plasma‐Assisted Process as Electrocatalysts for Oxygen Evolution: A Chemico‐Physical Investigation, file e14fb26d-2fc8-3de1-e053-1705fe0ac030
|
5
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Dual improvement of β-MnO2 oxygen evolution electrocatalysts via combined substrate control and surface engineering, file e14fb26e-739f-3de1-e053-1705fe0ac030
|
5
|
Enhanced photocatalytic removal of NOx gases by β-Fe2O3/CuO and β-Fe2O3/WO3 nanoheterostructures, file e14fb26f-4023-3de1-e053-1705fe0ac030
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5
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A versatile Fe(II) diketonate diamine adduct: Preparation, characterization and validation in the chemical vapor deposition of iron oxide nanomaterials, file e14fb26f-4361-3de1-e053-1705fe0ac030
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5
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Enhanced photocatalytic removal of NOx gases by β-Fe2O3/CuO and β-Fe2O3/WO3 nanoheterostructures, file e14fb26f-6881-3de1-e053-1705fe0ac030
|
5
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A versatile Fe(II) diketonate diamine adduct: Preparation, characterization and validation in the chemical vapor deposition of iron oxide nanomaterials, file e14fb26f-6882-3de1-e053-1705fe0ac030
|
5
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Supported Mn3O4 Nanosystems for Hydrogen Production through Ethanol Photoreforming, file e14fb26b-5d58-3de1-e053-1705fe0ac030
|
4
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Toward the Detection of Poisonous Chemicals and Warfare Agents by Functional Mn3O4 Nanosystems, file e14fb26b-5d5e-3de1-e053-1705fe0ac030
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4
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Controllable vapor phase fabrication of F:Mn3O4 thin films functionalized with Ag and TiO2, file e14fb26b-5d64-3de1-e053-1705fe0ac030
|
4
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Controllable vapor phase fabrication of F:Mn3O4 thin films functionalized with Ag and TiO2, file e14fb26b-5d65-3de1-e053-1705fe0ac030
|
4
|
Toward the Detection of Poisonous Chemicals and Warfare Agents by Functional Mn3O4 Nanosystems, file e14fb26b-7dea-3de1-e053-1705fe0ac030
|
4
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Plasma‐assisted chemical vapor deposition of F‐doped MnO2 nanostructures on single crystal substrates, file e14fb26d-2fc5-3de1-e053-1705fe0ac030
|
4
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Analysis of Co3O4-SnO2 and Co3O4-Fe2O3 nanosystems by x-ray photoelectron spectroscopy, file e14fb26e-f268-3de1-e053-1705fe0ac030
|
4
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Facile preparation of a cobalt diamine diketonate adduct as a potential vapor phase precursor for Co3O4 films, file e14fb26f-1f47-3de1-e053-1705fe0ac030
|
4
|
Manganese(II) Molecular Sources for Plasma-Assisted CVD of Mn Oxides and Fluorides: From Precursors to Growth Process, file e14fb26a-8e08-3de1-e053-1705fe0ac030
|
3
|
Molecular Engineering of Mn(II) Diamine Diketonate Precursors for the Vapor Deposition of Manganese Oxide Nanostructures, file e14fb26a-9ac2-3de1-e053-1705fe0ac030
|
3
|
Controllable vapor phase fabrication of F:Mn3O4 thin films functionalized with Ag and TiO2, file e14fb26b-5d66-3de1-e053-1705fe0ac030
|
3
|
Supported Mn3O4 Nanosystems for Hydrogen Production through Ethanol Photoreforming, file e14fb26b-7de5-3de1-e053-1705fe0ac030
|
3
|
Insights into the Plasma-Assisted Fabrication and Nanoscopic Investigation of Tailored MnO2 Nanomaterials, file e14fb26b-7fda-3de1-e053-1705fe0ac030
|
3
|
Nanoscale Mn3O4 Thin Film Photoelectrodes Fabricated by a Vapor-Phase Route, file e14fb26c-1b3e-3de1-e053-1705fe0ac030
|
3
|
Surface Functionalization of Grown-on-Tip ZnO Nanopyramids: From Fabrication to Light-Triggered Applications, file e14fb26c-6521-3de1-e053-1705fe0ac030
|
3
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Manganese Oxide Nanoarchitectures as Chemoresistive Gas Sensors to Monitor Fruit Ripening, file e14fb26d-2841-3de1-e053-1705fe0ac030
|
3
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Dual improvement of β-MnO2 oxygen evolution electrocatalysts via combined substrate control and surface engineering, file e14fb26e-77c8-3de1-e053-1705fe0ac030
|
3
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Facile preparation of a cobalt diamine diketonate adduct as a potential vapor phase precursor for Co3O4 films, file e14fb26f-0f90-3de1-e053-1705fe0ac030
|
3
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Interplay between coordination sphere engineering and properties of nickel diketonate-diamine complexes as vapor phase precursors for the growth of NiO thin films, file 06b696a1-b74b-40f5-b5cd-999ff0449f2d
|
2
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Plasma Processing of Nanomaterials: Emerging Technologies for Sensing and Energy Applications, file e14fb267-637b-3de1-e053-1705fe0ac030
|
2
|
Silver nanoparticles deposited on glassy carbon. Electrocatalytic activity for reduction of benzyl chloride., file e14fb267-8558-3de1-e053-1705fe0ac030
|
2
|
MOCVD of TiO2thin films from a modified titanium alkoxide precursor, file e14fb267-ad4d-3de1-e053-1705fe0ac030
|
2
|
Fe2O3-TiO2 nano-heretostructure photoanodes for highly efficient solar water oxidation, file e14fb268-b13e-3de1-e053-1705fe0ac030
|
2
|
Hydrogen peroxide activation by fluorophilic polyoxotungstates for fast and selective oxygen transfer catalysis, file e14fb268-c4bc-3de1-e053-1705fe0ac030
|
2
|
Iron–Titanium Oxide Nanocomposites Functionalized with Gold Particles: From Design to Solar Hydrogen Production, file e14fb269-92d4-3de1-e053-1705fe0ac030
|
2
|
Hematite-based nanocomposites for light-activated applications: Synergistic role of TiO2 and Au introduction, file e14fb269-9c8a-3de1-e053-1705fe0ac030
|
2
|
Plasma-Assisted Fabrication of Fe2O3-Co3O4 Nanomaterials as Anodes for Photoelectrochemical Water Splitting, file e14fb269-9f01-3de1-e053-1705fe0ac030
|
2
|
Magnetic properties of epsilon iron(III) oxide nanorod arrays functionalized with gold and copper(II) oxide, file e14fb26a-951c-3de1-e053-1705fe0ac030
|
2
|
Controlled Growth of Supported ZnO Inverted Nanopyramids with Downward Pointing Tips, file e14fb26b-5d57-3de1-e053-1705fe0ac030
|
2
|
Mn3O4 thin films functionalized with Ag, Au, and TiO2 analyzed using x-ray photoelectron spectroscopy, file e14fb26b-5d69-3de1-e053-1705fe0ac030
|
2
|
Tailoring Vapor-Phase Fabrication of Mn3O4 Nanosystems: From Synthesis to Gas-Sensing Applications, file e14fb26b-5ddc-3de1-e053-1705fe0ac030
|
2
|
Plasma-Assisted Growth of β-MnO2 Nanosystems as Gas Sensors for Safety and Food Industry Applications, file e14fb26b-5dde-3de1-e053-1705fe0ac030
|
2
|
Plasma-Assisted Growth of β-MnO2 Nanosystems as Gas Sensors for Safety and Food Industry Applications, file e14fb26b-5ddf-3de1-e053-1705fe0ac030
|
2
|
ZnO-based nanocomposites prepared by a vapor phase route, investigated by XPS, file e14fb26b-5de0-3de1-e053-1705fe0ac030
|
2
|
XPS investigation of F-doped MnO2 nanosystems fabricated by plasma assisted-CVD, file e14fb26b-5f3f-3de1-e053-1705fe0ac030
|
2
|
Controlled Growth of Supported ZnO Inverted Nanopyramids with Downward Pointing Tips, file e14fb26b-7de3-3de1-e053-1705fe0ac030
|
2
|
Surface Functionalization of Grown-on-Tip ZnO Nanopyramids: From Fabrication to Light-Triggered Applications, file e14fb26c-1fa3-3de1-e053-1705fe0ac030
|
2
|
Mn3O4 Nanomaterials Functionalized with Fe2O3 and ZnO: Fabrication, Characterization, and Ammonia Sensing Properties, file e14fb26c-6808-3de1-e053-1705fe0ac030
|
2
|
Quasi-1D MnO2 nanocomposites as gas sensors for hazardous chemicals, file e14fb26d-2844-3de1-e053-1705fe0ac030
|
2
|
Quasi-1D MnO2 nanocomposites as gas sensors for hazardous chemicals, file e14fb26d-2a0f-3de1-e053-1705fe0ac030
|
2
|
Quasi-1D Mn2O3 nanostructures functionalized with first-row transition metal oxides as oxygen evolution catalysts, file e14fb26e-53b3-3de1-e053-1705fe0ac030
|
2
|
Tailoring oxygen evolution performances of carbon nitride systems fabricated by electrophoresis through Ag and Au plasma functionalization, file 59dd9d17-034a-49e4-be96-cfd0fd3deccd
|
1
|
Tailoring oxygen evolution performances of carbon nitride systems fabricated by electrophoresis through Ag and Au plasma functionalization, file 7ebde2c5-bf45-417d-a27a-565a16d358b8
|
1
|
Determination of thermooptical and transport parameters of ε iron(III) oxide-based nanocomposites by beam deflection spectroscopy, file e14fb267-ac57-3de1-e053-1705fe0ac030
|
1
|
Vapor Phase Processing of α-Fe2O3 Photoelectrodes for Water Splitting: An Insight into the Structure/Property Interplay, file e14fb267-acca-3de1-e053-1705fe0ac030
|
1
|
Pt-functionalized Fe2O3 photoanodes for solar water splitting: the role of hematite nano-organization and the platinum redox state, file e14fb267-acd4-3de1-e053-1705fe0ac030
|
1
|
Self-Cleaning and Anti-Fogging Surfaces Based on Nanostructured Metal Oxides, file e14fb267-acd5-3de1-e053-1705fe0ac030
|
1
|
Interplay of thickness and photoelectrochemical properties in nanostructured α-Fe2O3 thin films, file e14fb268-1a47-3de1-e053-1705fe0ac030
|
1
|
Fe2O3-TiO2 nanosystems by a hybrid PE-CVD/ALD approach: controllable synthesis, growth mechanism, and photocatalytic properties, file e14fb268-1aee-3de1-e053-1705fe0ac030
|
1
|
Fluoroalkylsilanes with Embedded Functional Groups as Building Blocks for Environmentally Safer Self-Assembled Monolayers, file e14fb268-8219-3de1-e053-1705fe0ac030
|
1
|
Electrospun black titania nanofibers: Influence of hydrogen plasma-induced disorder on the electronic structure and photoelectrochemical performance, file e14fb268-89f2-3de1-e053-1705fe0ac030
|
1
|
Interfacial insight in multi-junction metal oxide photoanodes for water-splitting applications, file e14fb268-b13c-3de1-e053-1705fe0ac030
|
1
|
Novel two-step vapor-phase synthesis of UV–Vis light active Fe2O3/WO3 nanocomposites for phenol degradation, file e14fb269-94c4-3de1-e053-1705fe0ac030
|
1
|
Fe2O3-TiO2 nanocomposites on activated carbon fibers by a plasma-assisted approach, file e14fb269-96e7-3de1-e053-1705fe0ac030
|
1
|
Fe2O3-WO3 nanosystems synthesized by a hybrid CVD/sputtering route, and analyzed by X-ray photoelectron spectroscopy, file e14fb269-9957-3de1-e053-1705fe0ac030
|
1
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Gold nanoparticles-decorated fluoroalkylsilane nano-assemblies for electrocatalytic applications., file e14fb269-9b1d-3de1-e053-1705fe0ac030
|
1
|
Totale |
2.475 |