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TiO2基光催化在能源領(lǐng)域的研究進(jìn)展(英文)

TiO2基光催化在能源領(lǐng)域的研究進(jìn)展(英文)

定 價(jià):¥158.00

作 者: 耿啟金,Lintong,Wang,Shanfang,Tang 著
出版社: 科學(xué)出版社
叢編項(xiàng):
標(biāo) 簽: 暫缺

ISBN: 9787030498304 出版時(shí)間: 2016-01-01 包裝: 平裝
開(kāi)本: 16開(kāi) 頁(yè)數(shù): 293 字?jǐn)?shù):  

內(nèi)容簡(jiǎn)介

  《TiO2基光催化在能源領(lǐng)域的研究進(jìn)展(英文)》針對(duì)光催化劑的發(fā)展和在能源領(lǐng)域的應(yīng)用研究,做了系統(tǒng)總結(jié)和整理,概括為以下幾個(gè)內(nèi)容——光催化科學(xué)的發(fā)展進(jìn)程;光催化劑的制備與修飾進(jìn)展;光催化技術(shù)在制氫方面的研究進(jìn)展;光催化技術(shù)在CO2能源轉(zhuǎn)化方面的研究進(jìn)展,等。

作者簡(jiǎn)介

  耿啟金,Qijin Geng, Ph.D, Associate Professor of College of Chemistry-Chemical & Environmental Engineering, Weifang University. The membership in Chemistry Association of China.Add: College of Chemistry and Chemical Engineering, Weifang University, Shandong Province, 261061, P. R. China.Qijin Geng was born in China in December, 1969. He gained lus bachelor degree from College of Textile Chemical Engineering in Qingdao University in 1992. The master degree of applied chemistry was obtained in Jinan University in 2004 and Ph. D degree of chemical engineering at Qingdao University of Science and Technology, Shandong Province, P. R. China in 2011. The speciality is photocatalytic decomposition of waste water and gaseous pollutants, building materials, nano-sized material preparation, and multi-phase fluidization reaction engineering.He has published about 50 academic paper in chemical engineering and environmental science joumal, such as Industrial & Engineering Chenustry Research (IEC), Environmental Technology (TENT), Chemical Engineering & Technology (CET), Research on Chemical Intermediates (Res. Chem. Intermed.), New Building Material (NBM) and Biomedical and Environmental Science (BES), et al. Consequently, he was invited by some journals as a reviewer, such as Journal of Environmental Management, Research on Chemical Intermediates, Separation Science and Technology, Joumal of Chemical Technology & Biotechnology, International Research Journals of Biochemistry and Bioinformatics, Chemical Engineering Journal, Journal of Environmental Sciences, Environmental Science and Pollution Research, etc.

圖書目錄

Foreword
1 Structure and Properties of TiO2-based Photocatalyst
1.1 Structure
1.1.1 Crystal structures
1.1.2 Surface structure
1.2 Properties
1.2.1 Oxidation and reduction sites
1.2.2 Electronic properties
1.2.3 Electrochemical properties
1.2.4 Photoelectrochemical properties
1.2.5 Surface adsorption properties
1.2.6 Surface chemistry properties
1.2.7 Photon absorption properties
1.2.8 Photo-induced superhydrophilicity
1.3 Summary
2 Synthesizing Methods and Fabrication of TiO2-based Photocatalyst
2.1 Basic synthesis methods
2.1.1 Sol-gel method
2.1.2 Hydrothermal method
2.1.3 Solvothermal method
2.1.4 Anodic oxidation method
2.1.5 Microwave-assisted method
2.1.6 Hard template method
2.1.7 Reverse microemulsion method
2.1.8 Direct oxidation method
2.1.9 Non-hydrolytic sol-gel method
2.1.10 Sonochemical method
2.1.11 Chemical vapor deposition
2.1.12 Physical vapor deposition
2.1.13 Electrodeposition method
2.1.14 Ionic liquid-assisted method
2.2 Factors influencing the formation of titanate nanotubes via hydrothermal treatment
2.2.1 Starting materials: phases and particle sizes
2.2.2 Alkaline solution: types and concentrations
2.2.3 Hydrothermal treatment: temperature and duration
2.2.4 Assisted hydrothermal synthesis
2.2.5 Post-hydrothermal treatments
2.3 Summary
3 Modification Techniques of TiO2-based Photocatalysts
3.1 Basic ideas of modification
3.1.1 Morphological variation
3.1.2 Band gap modification by creation of oxygen vacancies and oxygen sub-stoichiometry
3.1.3 Spatially structured and chemically modified visible light active titania
3.2 Modification technology
3.2.1 Metal-loaded TiO2
3.2.2 Doped TiO2
3.2.3 Co-doped TiO2
3.2.4 Semiconductors coupled TiO2
3.2.5 Dye sensitized TiO2
3.2.6 Support ofphotocatalyst
3.3 Conclusions
4 Hydrogen Production in Heterogeneous Photocatalysis
4.1 Basic principles of photocatalytic hydrogen generation
4.1.1 Mechanism of photocatalytic hydrogen generation for PEC
4.1.2 Mechanism of H2S photolysis in the liquid phase
4.1.3 Mechanism of water splitting employing dye-sensitized solar ceils to harvest visible light
4.1.4 Main processes ofphotocatalytic hydrogen generation
4.1.5 Types of reactions
4.2 Evaluation ofphotocatalytic water splitting
4.2.1 Photocatalytic activity
4.2.2 Photocatalytic stability
4.2.3 Evaluation of PEC performance
4.3 Development of photocatalytic system for hydrogen production
4.3.1 PEC water splitting system
4.3.2 Photocatalytic hydrogen generation in batch systems under visible light irradiation
4.3.3 Photocatalytic hydrogen generation in membrane systems
4.3.4 Liquid-phase photocatalytic reactor using H2S
4.3.5 Gas-phase photocatalytic reactor for H2S
4.4 Recent progress ofphotocatalytic water splitting for hydrogen production
4.4.1 Co-catalyst
4.4.2 Doped with metals
4.5 Main factors influencing photocatalytic hydrogen production
4.5.1 Structure and morphology/crystallinity of catalyst
4.5.2 Bandgap energy
4.5.3 Corrosion resistance
4.5.4 Sacrificial agent/electron donor in water solution
4.5.5 Operating temperature
4.5.6 Light intensity
4.5.7 Solution pH value
4.6 Main challenges, opportunities and outlook
5 Heterogeneous Photocatalytic Reduction of CO2 to Fuels
5.1 Advances of CO2 photocatalytic reduction
5.2 Fundamentals of CO2 photocatalytic conversion
5.2.1 Basic mechanism
5.2.2 Photoexcitation and recombination
5.2.3 Chemical transformation
5.2.4 Selectivity in the photocatalytic CO2 reduction
5.2.5 Thermodynamic analysis
5.3 TiO2-based photocatalysts for CO2 photoconversion
5.3.1 Physical and photocatalytic reduction properties of TiO2-based photocatalysts
5.3.2 Advances in visible light responsive TiO2-based photocatalysts
5.3.3 Support materials for catalyst immobilization
5.3.4 Highly dispersed TiO2 photocatalysts
5.4 Reductants
5.5 Operation parameters influencing on CO2 reduction
5.6 Photocatalytic reactors and prospects
5.6.1 Anode oxidation and cathode reduction compartments
5.6.2 Photocatalytic reduction reactors
5.7 Future prospects for sustainable phototechnology
Main References

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