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Structured Semiconductors in Photocatalysis

Photocatalysis represents an interesting approach for different applications, with the possibility of using sunlight as a sustainable and renewable source of energy. This technology is based on the use of a semiconductor that can be excited by light with an energy higher than its band gap, inducing...

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Bibliographic Details
Main Author: Bedia, Jorge
Other Authors: Belver, Carolina
Format: eBook
Language:English
Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2023
Subjects:
Cuo-tio2 Nanocomposites
Aerosols
Noble Metal
Wastewater
Ceo2
Tetracycline Degradation
Heterojunction
N/a
2d Ti3c2 Mxene
Hierarchical Photocatalysts
Sulfisoxazole
Environmental And Energetic Applications
Alkali Precipitation
Microorganisms
Antibacterial Studies
Surface Area
Photocatalyst
Organic Pollutants
Solar Desalination
History Of Engineering & Technology / Bicssc
Pd−doped Ceo2
Chlordimeform
Mass Spectrometry
Activated Carbon
Hydrogen Production
Technology: General Issues / Bicssc
Fumed Silica
Green Synthesis
Process Evaluation
Cus/pbs/zno
Controlled Microstructures
Mos2/co3o4
Bandgap
Environment Applications
Reactive Oxygen Species
Gcn/ag2cro4
Methylene Blue Decomposition
Cerium Oxide
Sacrificial Reagent
Specific Surface Area
Template Free Structures
Photocatalysts
Freshwater
Mb Degradation
Photodecomposition
Chemical Vapor Deposition (cvd)
Environment Remediation
Thin Film Deposition
Nanoparticles
Fluoride-doped Titanium Dioxide
Silver/silver Bromide
Synthesis
Nanocomposite
Photocatalytic Activity
Inorganic Structures
Photocatalysis
Bifunctional Catalyst
Titanium Dioxide
Pulse Radiation
Membrane
Metal Nanoparticles
Photo-electro-fenton Process
Photocatalyst Characterization
Hybrid Structures
Thin Film
Organic Structures
Wastewater Treatment
Catalyst Synthesis
Royal Blue Led
Nanohybrids
Diffuse Reflectance
Broadband
Methyl Orange (mo)
Thermal Analysis
Photodegradation
Gas-phase
Oxygen Vacancies
Online Access:
Collection: Directory of Open Access Books - Collection details see MPG.ReNa
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653 |a aerosols 
653 |a noble metal 
653 |a wastewater 
653 |a CeO2 
653 |a tetracycline degradation 
653 |a heterojunction 
653 |a n/a 
653 |a 2D Ti3C2 MXene 
653 |a hierarchical photocatalysts 
653 |a sulfisoxazole 
653 |a environmental and energetic applications 
653 |a alkali precipitation 
653 |a microorganisms 
653 |a antibacterial studies 
653 |a surface area 
653 |a photocatalyst 
653 |a organic pollutants 
653 |a solar desalination 
653 |a History of engineering & technology / bicssc 
653 |a Pd−doped CeO2 
653 |a chlordimeform 
653 |a mass spectrometry 
653 |a activated carbon 
653 |a hydrogen production 
653 |a Technology: general issues / bicssc 
653 |a fumed silica 
653 |a green synthesis 
653 |a process evaluation 
653 |a CuS/PbS/ZnO 
653 |a controlled microstructures 
653 |a MoS2/Co3O4 
653 |a bandgap 
653 |a environment applications 
653 |a reactive oxygen species 
653 |a GCN/Ag2CrO4 
653 |a methylene blue decomposition 
653 |a cerium oxide 
653 |a sacrificial reagent 
653 |a specific surface area 
653 |a template free structures 
653 |a photocatalysts 
653 |a freshwater 
653 |a MB degradation 
653 |a photodecomposition 
653 |a chemical vapor deposition (CVD) 
653 |a environment remediation 
653 |a thin film deposition 
653 |a nanoparticles 
653 |a fluoride-doped titanium dioxide 
653 |a silver/silver bromide 
653 |a synthesis 
653 |a nanocomposite 
653 |a photocatalytic activity 
653 |a inorganic structures 
653 |a photocatalysis 
653 |a bifunctional catalyst 
653 |a titanium dioxide 
653 |a pulse radiation 
653 |a membrane 
653 |a metal nanoparticles 
653 |a photo-electro-Fenton process 
653 |a photocatalyst characterization 
653 |a hybrid structures 
653 |a thin film 
653 |a organic structures 
653 |a wastewater treatment 
653 |a catalyst synthesis 
653 |a royal blue LED 
653 |a nanohybrids 
653 |a diffuse reflectance 
653 |a broadband 
653 |a methyl orange (MO) 
653 |a thermal analysis 
653 |a photodegradation 
653 |a gas-phase 
653 |a oxygen vacancies 
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700 1 |a Bedia, Jorge 
700 1 |a Belver, Carolina 
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989 |b DOAB  |a Directory of Open Access Books 
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520 |a Photocatalysis represents an interesting approach for different applications, with the possibility of using sunlight as a sustainable and renewable source of energy. This technology is based on the use of a semiconductor that can be excited by light with an energy higher than its band gap, inducing the formation of energy-rich electron-hole pairs that can be involved in redox reactions. Recent progress has explored the chemical nature of structured semiconductors with the object of improving their electronic and optical properties, enhancing their photoresponse under different conditions. This Special Issue collected original research papers, reviews and commentaries focused on the challenges in the design of structured semiconductors with photocatalytic applications; thus, submissions focusing on synthesis, the characterization of new photocatalysts, studies of activity and stability, and the mechanisms of photocatalytic reactions are invited for submission. 

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