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Publication DateJournal of Hazardous Materials, ISSN 0304-3894, 01/2020, Volume 382, p. 121083
Bi O I loaded anatase-TiO (B) biphase nanowires composite photocatalysts were fabricated by an in situ calcination method and exhibited outstanding...
Bi4O5I2 | Acetaminophen | Photocatalysis | Heterojunction | Biphase TiO2
Bi4O5I2 | Acetaminophen | Photocatalysis | Heterojunction | Biphase TiO2
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Loading RightsAPPLIED CATALYSIS B-ENVIRONMENTAL, ISSN 0926-3373, 10/2016, Volume 194, pp. 98 - 104
Heterojunction is an effectively construction to improve the photocatalytic activity due to the excellent photo-induced carrier separation efficiency. In this...
g-C3N4 | BISMUTH OXYBROMIDE | BIOX X | HYDROGEN GENERATION | Photocatalysis | I PHOTOCATALYSTS | CHEMISTRY, PHYSICAL | DFT CALCULATIONS | Z-SCHEME | KYOTO PROTOCOL | ENGINEERING, CHEMICAL | I-3(-)/I | ELECTRONIC-STRUCTURES | ENGINEERING, ENVIRONMENTAL | Bi4O5I2 | CO2 conversion | VISIBLE-LIGHT IRRADIATION | WATER
g-C3N4 | BISMUTH OXYBROMIDE | BIOX X | HYDROGEN GENERATION | Photocatalysis | I PHOTOCATALYSTS | CHEMISTRY, PHYSICAL | DFT CALCULATIONS | Z-SCHEME | KYOTO PROTOCOL | ENGINEERING, CHEMICAL | I-3(-)/I | ELECTRONIC-STRUCTURES | ENGINEERING, ENVIRONMENTAL | Bi4O5I2 | CO2 conversion | VISIBLE-LIGHT IRRADIATION | WATER
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Loading RightsApplied Catalysis B: Environmental, ISSN 0926-3373, 04/2017, Volume 203, pp. 879 - 888
Design of three-dimensional (3D) hierarchical architectures and nano-phase-junctions are of huge significance for semiconductor photocatalysis. Herein, we...
Phase transformation | Bi5O7I | Bi4O5I2 | Bismuth oxyiodide | Hierarchical architecture | BiOI | 001 ACTIVE FACETS | OXIDATION | TEMPERATURE SYNTHESIS | PERFORMANCE | CHEMISTRY, PHYSICAL | NANOSHEETS | NANOSTRUCTURES | HIGHLY EFFICIENT | ENGINEERING, CHEMICAL | ROBUST | ENGINEERING, ENVIRONMENTAL | BISPHENOL-A | Road construction industry | Catalysis
Phase transformation | Bi5O7I | Bi4O5I2 | Bismuth oxyiodide | Hierarchical architecture | BiOI | 001 ACTIVE FACETS | OXIDATION | TEMPERATURE SYNTHESIS | PERFORMANCE | CHEMISTRY, PHYSICAL | NANOSHEETS | NANOSTRUCTURES | HIGHLY EFFICIENT | ENGINEERING, CHEMICAL | ROBUST | ENGINEERING, ENVIRONMENTAL | BISPHENOL-A | Road construction industry | Catalysis
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Loading RightsAPPLIED CATALYSIS B-ENVIRONMENTAL, ISSN 0926-3373, 04/2014, Volume 148, pp. 154 - 163
A facile solvothermal route is successfully developed to synthesize Bi4O5I2, a novel I-poor bismuth oxyiodide, with hierarchical nanoflake structure. The...
BIOX X | ONE-POT SYNTHESIS | CRYSTAL-STRUCTURE | Solvothermal synthesis | CHEMISTRY, PHYSICAL | ALKYLPHENOLS | Visible light photocatalysis | DRIVEN PHOTOCATALYST | 4-Tert-butylphenol | INACTIVATION | ENGINEERING, CHEMICAL | LIQUID-CHROMATOGRAPHY | ENGINEERING, ENVIRONMENTAL | Bi4O5I2 nanoflakes | Photocatalytic mechanism | ARCHITECTURES | WATER | TIO2
BIOX X | ONE-POT SYNTHESIS | CRYSTAL-STRUCTURE | Solvothermal synthesis | CHEMISTRY, PHYSICAL | ALKYLPHENOLS | Visible light photocatalysis | DRIVEN PHOTOCATALYST | 4-Tert-butylphenol | INACTIVATION | ENGINEERING, CHEMICAL | LIQUID-CHROMATOGRAPHY | ENGINEERING, ENVIRONMENTAL | Bi4O5I2 nanoflakes | Photocatalytic mechanism | ARCHITECTURES | WATER | TIO2
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Loading RightsApplied Catalysis B: Environmental, ISSN 0926-3373, 10/2016, Volume 194, pp. 98 - 104
I /I redox mediator assisted Z-scheme mechanism for enhanced photocatalytic CO conversion over g-C N /Bi O I . Heterojunction is an effectively construction to...
g-C3N4 | I3−/I | CO2 conversion | Bi4O5I2 | Photocatalysis | G-C | conversion
g-C3N4 | I3−/I | CO2 conversion | Bi4O5I2 | Photocatalysis | G-C | conversion
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Loading RightsJournal of Colloid And Interface Science, ISSN 0021-9797, 01/2019, Volume 533, pp. 636 - 648
At present, various organic pollutants and pathogenic microorganisms presented in wastewater have severely threatened aquatic ecosystem and human health....
Bacterial disinfection | Visible light | Photocatalytic mechanisms | Bi4O5I2/AgI | Z-scheme | AgI | ORGANIC-MATTER | CHEMISTRY, PHYSICAL | REFRACTORY POLLUTANTS | DEPTH MECHANISM INSIGHT | HIGHLY EFFICIENT | CR(VI) REDUCTION | SOLVOTHERMAL SYNTHESIS | IRRADIATION | WASTE-WATER | Bi4O5I2/Agl | BISPHENOL-A | OXIDATIVE-DEGRADATION | Silver Compounds - metabolism | Iodine - chemistry | Iodine - deficiency | Iodine - metabolism | Tetracycline - metabolism | Iodides - chemistry | Silver Compounds - chemistry | Photochemical Processes | Bismuth - chemistry | Particle Size | Iodides - metabolism | Light | Surface Properties | Escherichia coli - metabolism | Bismuth - metabolism | Catalysis | Wastewater | Ecosystems | Rain-making | Escherichia coli
Bacterial disinfection | Visible light | Photocatalytic mechanisms | Bi4O5I2/AgI | Z-scheme | AgI | ORGANIC-MATTER | CHEMISTRY, PHYSICAL | REFRACTORY POLLUTANTS | DEPTH MECHANISM INSIGHT | HIGHLY EFFICIENT | CR(VI) REDUCTION | SOLVOTHERMAL SYNTHESIS | IRRADIATION | WASTE-WATER | Bi4O5I2/Agl | BISPHENOL-A | OXIDATIVE-DEGRADATION | Silver Compounds - metabolism | Iodine - chemistry | Iodine - deficiency | Iodine - metabolism | Tetracycline - metabolism | Iodides - chemistry | Silver Compounds - chemistry | Photochemical Processes | Bismuth - chemistry | Particle Size | Iodides - metabolism | Light | Surface Properties | Escherichia coli - metabolism | Bismuth - metabolism | Catalysis | Wastewater | Ecosystems | Rain-making | Escherichia coli
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Loading RightsJournal of Environmental Sciences, ISSN 1001-0742, 01/2020, Volume 87, pp. 149 - 162
A graphite carbon nitride (g-C N ) modified Bi O I composite was successfully prepared in-situ via the thermal treatment of a g-C N /BiOI precursor at 400°C...
g-C3N4 | Methyl Orange degradation | Visible light | Bi4O5I2 | Heterojunction
g-C3N4 | Methyl Orange degradation | Visible light | Bi4O5I2 | Heterojunction
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Loading RightsApplied Catalysis B: Environmental, ISSN 0926-3373, 08/2016, Volume 191, pp. 235 - 245
A novel visible-light-driven ultrathin C N /Bi O I layered nanojunctions photocatalyst was prepared via a facile solvothermal method in the presence of...
Layered nanojunctions | Photocatalytic | Bi4O5I2 | Ultrathin C3N4 | Ionic liquid | Ultrathin C
Layered nanojunctions | Photocatalytic | Bi4O5I2 | Ultrathin C3N4 | Ionic liquid | Ultrathin C
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Loading RightsApplied Catalysis B: Environmental, ISSN 0926-3373, 04/2014, Volume 148-149, pp. 154 - 163
A facile solvothermal route is successfully developed to synthesize Bi O I , a novel I-poor bismuth oxyiodide, with hierarchical nanoflake structure. The...
Bi4O5I2 nanoflakes | Photocatalytic mechanism | Visible light photocatalysis | 4-Tert-butylphenol | Solvothermal synthesis | Bi | I | nanoflakes | O
Bi4O5I2 nanoflakes | Photocatalytic mechanism | Visible light photocatalysis | 4-Tert-butylphenol | Solvothermal synthesis | Bi | I | nanoflakes | O
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Loading RightsMaterials Letters, ISSN 0167-577X, 12/2018, Volume 232, pp. 191 - 195
BiOI/Bi O I heterojunction photocatalysts were prepared by in-situ crystallization. The influence of the heterostructure on the photocatalyst was investigated...
Hg0 | Semiconductors | Nanocomposites | BiOI/Bi4O5I2 | Heterojunction | Hg-0 | ANTIBIOTICS | PHYSICS, APPLIED | MECHANISM | MICROSPHERES | MATERIALS SCIENCE, MULTIDISCIPLINARY | CONSTRUCTION | DEGRADATION | FACETS
Hg0 | Semiconductors | Nanocomposites | BiOI/Bi4O5I2 | Heterojunction | Hg-0 | ANTIBIOTICS | PHYSICS, APPLIED | MECHANISM | MICROSPHERES | MATERIALS SCIENCE, MULTIDISCIPLINARY | CONSTRUCTION | DEGRADATION | FACETS
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Loading RightsColloids and Surfaces A: Physicochemical and Engineering Aspects, ISSN 0927-7757, 10/2019, Volume 578, p. 123573
Development of semiconductor heterojunction with hierarchical architectures is highly effectual for boosting photocatalytic performance. In this work, two...
Degradation | Photocatalytic | Palygorskite | HETEROJUNCTION | ESCHERICHIA-COLI | CHEMISTRY, PHYSICAL | INTERFACIAL CHARGE-TRANSFER | Bi5O7I | Bi4O5I2 | DISINFECTION | FABRICATION | NANOCOMPOSITES SYNTHESIS | CONTROLLED HYDROTHERMAL SYNTHESIS | ORANGE
Degradation | Photocatalytic | Palygorskite | HETEROJUNCTION | ESCHERICHIA-COLI | CHEMISTRY, PHYSICAL | INTERFACIAL CHARGE-TRANSFER | Bi5O7I | Bi4O5I2 | DISINFECTION | FABRICATION | NANOCOMPOSITES SYNTHESIS | CONTROLLED HYDROTHERMAL SYNTHESIS | ORANGE
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Loading RightsMaterials Letters, ISSN 0167-577X, 12/2019, Volume 256, p. 1
Bi-rich bismuth oxyhalide have a great potential in the field of photocatalysis. For improve the photocatalytic activity of Bi-rich bismuth oxyhalide, here,...
Semiconductors | Nanocomposites | Bi4O5I2 | Photocatalysis | Heterojunction | SOLVOTHERMAL SYNTHESIS | PHYSICS, APPLIED | MATERIALS SCIENCE, MULTIDISCIPLINARY | NANOSHEETS | PHOTOCATALYTIC PERFORMANCE | Degradation | Self assembly | Performance tests | Composite materials | Bismuth | Mapping | Catalytic activity | Heterostructures
Semiconductors | Nanocomposites | Bi4O5I2 | Photocatalysis | Heterojunction | SOLVOTHERMAL SYNTHESIS | PHYSICS, APPLIED | MATERIALS SCIENCE, MULTIDISCIPLINARY | NANOSHEETS | PHOTOCATALYTIC PERFORMANCE | Degradation | Self assembly | Performance tests | Composite materials | Bismuth | Mapping | Catalytic activity | Heterostructures
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Loading RightsInorganic Chemistry Communications, ISSN 1387-7003, 07/2018, Volume 93, pp. 65 - 68
BiOI/Bi O I composites were synthesized by calcinations with BiOI microspheres at 400 °C. The BiOI/Bi O I composites demonstrate 5 times higher photocatalytic...
Visible light | Methyl orange | BiOI/Bi4O5I2 | Photocatalysis | BiOI/Bi | OXIDATION | HETEROJUNCTIONS | PERFORMANCE | BISMUTH OXYIODIDE | NANOSHEETS | CHEMISTRY, INORGANIC & NUCLEAR | FACETS | SEPARATION | FORMALDEHYDE | BIOI
Visible light | Methyl orange | BiOI/Bi4O5I2 | Photocatalysis | BiOI/Bi | OXIDATION | HETEROJUNCTIONS | PERFORMANCE | BISMUTH OXYIODIDE | NANOSHEETS | CHEMISTRY, INORGANIC & NUCLEAR | FACETS | SEPARATION | FORMALDEHYDE | BIOI
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Loading RightsChemosphere, ISSN 0045-6535, 08/2019, Volume 229, pp. 426 - 433
BiOI is a visible photocatalyst towards organic pollutant. In this work, biomass waste (withered typha grass) was used to fabricate nitrogen-doped hierarchical...
Bi4O5I2 | Nitrogen-doped hierarchical carbon | Photocatalysis | Tremella-like | GRAPHENE OXIDE | BI METAL | VISIBLE-LIGHT PHOTOCATALYSIS | BISMUTH OXYIODIDE | P-N-JUNCTION | QUANTUM DOTS | ENVIRONMENTAL SCIENCES | OXYGEN VACANCIES | DEGRADATION | NANOCOMPOSITES SYNTHESIS | CONTROLLED HYDROTHERMAL SYNTHESIS
Bi4O5I2 | Nitrogen-doped hierarchical carbon | Photocatalysis | Tremella-like | GRAPHENE OXIDE | BI METAL | VISIBLE-LIGHT PHOTOCATALYSIS | BISMUTH OXYIODIDE | P-N-JUNCTION | QUANTUM DOTS | ENVIRONMENTAL SCIENCES | OXYGEN VACANCIES | DEGRADATION | NANOCOMPOSITES SYNTHESIS | CONTROLLED HYDROTHERMAL SYNTHESIS
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Loading RightsChemical Engineering Journal, ISSN 1385-8947, 01/2018, Volume 331, pp. 355 - 363
A novel graphene-like BN/Bi O I 2D-2D stacking has been prepared via a facile ionic liquid 1-hexyl-3-methylimidazolium iodide ([Hmim]I) assisted solvothermal...
Electron transfer | Photocatalytic | Bisphenol A | Graphene-like BN | Bi4O5I2 | MECHANISM INSIGHT | PERFORMANCE | 2-DIMENSIONAL MATERIALS | BISMUTH OXYIODIDE | NANOSHEETS | LAYERED NANOJUNCTIONS | SOLVOTHERMAL SYNTHESIS | ENGINEERING, CHEMICAL | ENGINEERING, ENVIRONMENTAL | REACTABLE IONIC LIQUID | DEGRADATION | VISIBLE-LIGHT IRRADIATION
Electron transfer | Photocatalytic | Bisphenol A | Graphene-like BN | Bi4O5I2 | MECHANISM INSIGHT | PERFORMANCE | 2-DIMENSIONAL MATERIALS | BISMUTH OXYIODIDE | NANOSHEETS | LAYERED NANOJUNCTIONS | SOLVOTHERMAL SYNTHESIS | ENGINEERING, CHEMICAL | ENGINEERING, ENVIRONMENTAL | REACTABLE IONIC LIQUID | DEGRADATION | VISIBLE-LIGHT IRRADIATION
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Loading RightsApplied Catalysis B: Environmental, ISSN 0926-3373, 06/2018, Volume 226, pp. 53 - 60
Due to the efficient O adsorption of Bi O I -OV, an instantaneous surface-bulk homojunction was formed at the interface of bulk Bi O I and Bi O I -OV-O , which...
Molecular adsorption | Oxygen vacancies | Molecular oxygen activation | Bi4O5I2 | Carrier migration | CHEMISTRY, PHYSICAL | 001 FACETS | ENGINEERING, CHEMICAL | VISIBLE-LIGHT | BIOBR NANOSHEETS | REDUCTION | ENGINEERING, ENVIRONMENTAL | SURFACE | DEGRADATION | VACANCIES | RICH | PHOTOCATALYTIC PERFORMANCE | TIO2
Molecular adsorption | Oxygen vacancies | Molecular oxygen activation | Bi4O5I2 | Carrier migration | CHEMISTRY, PHYSICAL | 001 FACETS | ENGINEERING, CHEMICAL | VISIBLE-LIGHT | BIOBR NANOSHEETS | REDUCTION | ENGINEERING, ENVIRONMENTAL | SURFACE | DEGRADATION | VACANCIES | RICH | PHOTOCATALYTIC PERFORMANCE | TIO2
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Loading RightsApplied Catalysis B: Environmental, ISSN 0926-3373, 12/2018, Volume 237, pp. 1033 - 1043
A novel N-doped carbon quantum dots (N-CQDs) modified Bi O I hollow nanotubes photocatalyst was prepared for the first time. The N-CQDs/Bi O I composite showed...
Bi4O5I2 hollow nanotube | Photocatalytic | BPA removal | Charge separation | N-CQDs | CO2 PHOTOREDUCTION | BI METAL | VISIBLE-LIGHT PHOTOCATALYSIS | CHEMISTRY, PHYSICAL | NANOSHEETS | IONIC LIQUID | BAND-STRUCTURE | ENGINEERING, CHEMICAL | REACTION PATHWAY | CARBON QUANTUM DOTS | ENGINEERING, ENVIRONMENTAL | MOLECULAR-OXYGEN ACTIVATION | WATER
Bi4O5I2 hollow nanotube | Photocatalytic | BPA removal | Charge separation | N-CQDs | CO2 PHOTOREDUCTION | BI METAL | VISIBLE-LIGHT PHOTOCATALYSIS | CHEMISTRY, PHYSICAL | NANOSHEETS | IONIC LIQUID | BAND-STRUCTURE | ENGINEERING, CHEMICAL | REACTION PATHWAY | CARBON QUANTUM DOTS | ENGINEERING, ENVIRONMENTAL | MOLECULAR-OXYGEN ACTIVATION | WATER
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Loading RightsJournal of Colloid And Interface Science, ISSN 0021-9797, 09/2016, Volume 478, pp. 324 - 333
Novel CQDs/Bi O I materials have been prepared via a reactable ionic liquid assisted bidirectional regulation solvothermal method. This is the first time for...
Photocatalytic | Carbon quantum dots | Bi4O5I2 | Ionic liquid | HETEROJUNCTION | PERFORMANCE | BISMUTH OXYIODIDE | HIERARCHICAL ARCHITECTURES | CHEMISTRY, PHYSICAL | NANOSTRUCTURES | SOLVOTHERMAL SYNTHESIS | ULTRATHIN NANOSHEETS | COMPOSITE PHOTOCATALYST | DEGRADATION | TIO2
Photocatalytic | Carbon quantum dots | Bi4O5I2 | Ionic liquid | HETEROJUNCTION | PERFORMANCE | BISMUTH OXYIODIDE | HIERARCHICAL ARCHITECTURES | CHEMISTRY, PHYSICAL | NANOSTRUCTURES | SOLVOTHERMAL SYNTHESIS | ULTRATHIN NANOSHEETS | COMPOSITE PHOTOCATALYST | DEGRADATION | TIO2
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