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Solar Hydrogen Generation: Transition Metal Oxides in Water Photoelectrolysis

Solar Hydrogen Generation: Transition Metal Oxides in Water Photoelectrolysis
Author: Jinghua Guo
Publisher: McGraw Hill Professional
Total Pages: 207
Release: 2012-01-27
Genre: Technology & Engineering
ISBN: 0071701273
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State-of-the-art renewable energy science research and applications Solar Hydrogen Generation: Transition Metal Oxides in Water Photoelectrolysis provides expert techniques for extracting hydrogen from water using transition metal oxides as catalysts. The basic processes of electrochemistry and photocatalysis for hydrogen production are described along with photocatalytic reactions and semiconductor photocatalysts, particularly metal oxides. This in-depth guide illustrates the corresponding crystal structure vs. electronic structure and optical properties vs. light absorption of transition metal oxides. Impurity and doped photocatalysts, integrated organic and inorganic systems, surface and interface chemistry, and nanostructure and morphology in photocatalysis applications are all addressed. This comprehensive resource introduces soft x-ray absorption (XAS), soft x-ray emission spectroscopy (XES), and resonant inelastic soft x-ray scattering (RIXS), followed by a description of instrumentation. COVERAGE INCLUDES: * Hydrogen generation: electrochemistry and photoelectrolysis * Photocatalytic reactions, oxidation, and reduction * Transition metal oxides * Crystal structure and electronic structure * Optical properties and light absorption * Impurity, dopants, and defects * Surface and morphology * Soft x-ray spectroscopy and electronic structure

Solar Hydrogen Generation: Transition Metal Oxides in Water Photoelectrolysis

Solar Hydrogen Generation: Transition Metal Oxides in Water Photoelectrolysis
Author: Jinghua Guo
Publisher: McGraw Hill Professional
Total Pages: 207
Release: 2011-12-30
Genre: Technology & Engineering
ISBN: 0071701265
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State-of-the-art renewable energy science research and applications Solar Hydrogen Generation: Transition Metal Oxides in Water Photoelectrolysis provides expert techniques for extracting hydrogen from water using transition metal oxides as catalysts. The basic processes of electrochemistry and photocatalysis for hydrogen production are described along with photocatalytic reactions and semiconductor photocatalysts, particularly metal oxides. This in-depth guide illustrates the corresponding crystal structure vs. electronic structure and optical properties vs. light absorption of transition metal oxides. Impurity and doped photocatalysts, integrated organic and inorganic systems, surface and interface chemistry, and nanostructure and morphology in photocatalysis applications are all addressed. This comprehensive resource introduces soft x-ray absorption (XAS), soft x-ray emission spectroscopy (XES), and resonant inelastic soft x-ray scattering (RIXS), followed by a description of instrumentation. COVERAGE INCLUDES: * Hydrogen generation: electrochemistry and photoelectrolysis * Photocatalytic reactions, oxidation, and reduction * Transition metal oxides * Crystal structure and electronic structure * Optical properties and light absorption * Impurity, dopants, and defects * Surface and morphology * Soft x-ray spectroscopy and electronic structure

Solar Hydrogen Production by Photo-oxidation of Water from Doped Iron Oxide Photoanodes

Solar Hydrogen Production by Photo-oxidation of Water from Doped Iron Oxide Photoanodes
Author: Alan Kleiman-Shwarsctein
Publisher:
Total Pages: 390
Release: 2010
Genre:
ISBN: 9781124446042
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Hematite thin film electrodes synthesized as photoanodes for the photoelectrochemical hydrogen production from water. A novel electrochemical method in which the iron oxide precursors is co-deposited with diverse metals to create electrochemically doped thin films has been studies. The most promising dopant metals that found have been Pt, Mo, Cr, Ti and Al; which are substituted into the hematite structure in 1-8 % atomic. The films were characterized by scanning electron microscopy, X-ray diffraction, UV-Vis optical spectroscopy, Raman spectroscopy and X-ray photoelectron spectroscopy to determine the effect of the dopants on the hematite structure and the photoelectrochemical performance as compared to the undoped material. The IPCE (incident photon-to-current efficiency) values of the transition metal doped iron oxide were up to 4 times higher than the undoped samples. Further improvements to the photocatalytic performance were achieved by deposition of oxygen evolution catalysts, as well as modifications to the surface of the hematite photoelectrode.

Photoelectrochemical Water Splitting

Photoelectrochemical Water Splitting
Author: Inamuddin
Publisher: Materials Research Forum LLC
Total Pages: 220
Release: 2020-04-05
Genre: Technology & Engineering
ISBN: 1644900734
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Photoelectrochemical (PEC) water splitting is a highly promising process for converting solar energy into hydrogen energy. The book presents new cutting-edge research findings in this field. Subjects covered include fabrication and characteristics of various electrode materials, cell design and strategies for enhancing the properties of PEC electrode materials. Keywords: Renewable Energy Sources, Solar Energy Conversion, Hydrogen Production, Photoelectrochemical Water Splitting, Electrode Materials for Water Splitting, Transition Metal Chalcogenide Electrodes, Narrow Bandgap Semiconductor Electrodes, Ti-based Electrode Materials, BiVO4 Photoanodes, Noble Electrode Materials, Cell Design for Water Splitting.

Metal Oxides/Chalcogenides and Composites

Metal Oxides/Chalcogenides and Composites
Author: Aneeya Kumar Samantara
Publisher: Springer
Total Pages: 83
Release: 2019-08-09
Genre: Technology & Engineering
ISBN: 3030248615
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This book covers the recent development of metal oxides, hydroxides and their carbon composites for electrochemical oxidation of water in the production of hydrogen and oxygen as fuels. It includes a detailed discussion on synthesis methodologies for the metal oxides/hydroxides, structural/morphological characterizations, and the key parameters (Tafel plot, Turnover frequency, Faradic efficiency, overpotential, long cycle life etc.) needed to evaluate the electrocatalytic activity of the materials. Additionally, the mechanism behind the electro oxidation process is presented. Readers will find a comprehensive source on the close correlation between metal oxides, hydroxides, composites, and their properties and importance in the generation of hydrogen and oxygen from water. The depletion of fossil fuels from the earth’s crust, and related environmental issues such as climate change, demand that we search for alternative energy resources to achieve some form of sustainable future. In this regard, much scientific research has been devoted to technologies such as solar cells, wind turbines, fuel cells etc. Among them fuel cells attract much attention because of their versatility and efficiency. In fuel cells, different fuels such as hydrogen, CO2, alcohols, acids, methane, oxygen/air, etc. are used as the fuel, and catalysts are employed to produce a chemical reaction for generating electricity. Hence, it is very important to produce these fuels in an efficient, eco-friendly, and cost effective manner. The electrochemical splitting of water is an environmentally friendly process to produce hydrogen (the greener fuel used in fuel cells), but the efficiencies of these hydrogen evolution reactions (cathodic half reaction) are strongly dependent on the anodic half reaction (oxygen evolution reaction), i.e., the better the anodic half, the better will be the cathodic reaction. Further, this oxygen evolution reaction depends on the types of active electrocatalysts used. Though many more synthetic approaches have been explored and different electrocatalysts developed, oxide and hydroxide-based nanomaterials and composites (with graphene, carbon nanotubes etc.) show better performance. This may be due to the availability of more catalytic surface area and electro active centers to carry out the catalysis process.

Hydrogen Production by Photoelectrolytic Decomposition of H2o Using Solar Energy

Hydrogen Production by Photoelectrolytic Decomposition of H2o Using Solar Energy
Author: R.D. Rauh
Publisher:
Total Pages: 0
Release: 1979
Genre: Solar energy
ISBN:
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The purpose of this program is to develop new semiconducting electrodes for the economical efficient photoelectro chemical decomposition of H2O using solar energy. Due to the intimacy of the liquid -solid rectifying junction, this technique is particularly well -suited to inexpensive polycrystalline electrode fabrications. During the past year, work has concentrated on photoanode development, specifically anodically robust semi conducting oxides. It was found that some thin film oxides formed by a simple chemical vapor deposition (CVD) procedure perform quite well, with maximum solar power conversion efficiencies of 0.5 to 1.0% for CVD TiO2despite a band gap of 3.1 eV, which is a poor match for the solar spectrum. CuO, Fe203, W03 and some mixed oxide thin film electrodes were also prepared pyrolytically and showed good photo response. The argument is put forth, however, that no stable oxide photoanode set discovered have the combined properties of low electron affinity (EA) and optimal band gap required for the efficient photoelectrolysis of H20. Compounds like TiO2 and SrTiO3 have satisfactory EA's, but their valence bands lie too deep, rendering their band gaps impractically large. It is probable that only "d -band" oxides would have valence bands high enough in energy to give rise to this combination of properties. In order to produce such materials, over 60 new perovskites and rutiles containing do transition metals have been synthesized and evaluated as sintered disc photoelectrodes. Mostly 3d metal oxides were investigated. Sensitization of photocurrents to the visible portion of the spectrum was noted in several cases confirming this materials design philosophy. As a rule, photocurrent quantum yields were lower for the substituted oxides than for the wide band gap, d° -oxides like SrTiO3 andTi02. This is ascribed partially to poor mobility of the d electrons. Synthesis and evaluation of oxides substituted with 4d and 5d transition metals, which have large d -electron radii, is a recommended area of further research.

Solar Hydrogen Generation

Solar Hydrogen Generation
Author: Krishnan Rajeshwar
Publisher: Springer Science & Business Media
Total Pages: 329
Release: 2008-02-21
Genre: Technology & Engineering
ISBN: 0387728104
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Given the backdrop of intense interest and widespread discussion on the prospects of a hydrogen energy economy, this book aims to provide an authoritative and up-to-date scientific account of hydrogen generation using solar energy and renewable sources such as water. While the technological and economic aspects of solar hydrogen generation are evolving, the scientific principles underlying various solar-assisted water splitting schemes already have a firm footing. This book aims to expose a broad-based audience to these principles. This book spans the disciplines of solar energy conversion, electrochemistry, photochemistry, photoelectrochemistry, materials chemistry, device physics/engineering, and biology.

Photoelectrochemical Water Splitting

Photoelectrochemical Water Splitting
Author: Inamuddin
Publisher: Materials Research Forum LLC
Total Pages: 220
Release: 2020-04-05
Genre: Technology & Engineering
ISBN: 1644900726
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Photoelectrochemical (PEC) water splitting is a highly promising process for converting solar energy into hydrogen energy. The book presents new cutting-edge research findings in this field. Subjects covered include fabrication and characteristics of various electrode materials, cell design and strategies for enhancing the properties of PEC electrode materials. Keywords: Renewable Energy Sources, Solar Energy Conversion, Hydrogen Production, Photoelectrochemical Water Splitting, Electrode Materials for Water Splitting, Transition Metal Chalcogenide Electrodes, Narrow Bandgap Semiconductor Electrodes, Ti-based Electrode Materials, BiVO4 Photoanodes, Noble Electrode Materials, Cell Design for Water Splitting.

Environmental Photochemistry Part III

Environmental Photochemistry Part III
Author: Detlef W. Bahnemann
Publisher: Springer
Total Pages: 356
Release: 2015-06-23
Genre: Science
ISBN: 366246795X
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This volume builds on the previous two editions, Environmental Photochemistry Part I and Part II, which reflect the diverse range of activities in this highly dynamic research field. The chapters cover fundamental topics, from photocatalyst materials, surface-modified materials, reaction kinetics and reactor modelling, to translational research activities on chemical synthesis, energy conversion and water treatment. The applications of the new generation of LED irradiation sources and spectroscopic methods for elucidating reaction pathways are also covered in detail. This new volume maintains the ethos of the previous editions by further contributing to readers’ understanding of photochemical and photocatalytic processes for environmental applications.

Photoelectrochemical Hydrogen Production

Photoelectrochemical Hydrogen Production
Author: Roel van de Krol
Publisher: Springer Science & Business Media
Total Pages: 322
Release: 2011-11-09
Genre: Technology & Engineering
ISBN: 146141380X
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Photoelectrochemical Hydrogen Production describes the principles and materials challenges for the conversion of sunlight into hydrogen through water splitting at a semiconducting electrode. Readers will find an analysis of the solid state properties and materials requirements for semiconducting photo-electrodes, a detailed description of the semiconductor/electrolyte interface, in addition to the photo-electrochemical (PEC) cell. Experimental techniques to investigate both materials and PEC device performance are outlined, followed by an overview of the current state-of-the-art in PEC materials and devices, and combinatorial approaches towards the development of new materials. Finally, the economic and business perspectives of PEC devices are discussed, and promising future directions indicated. Photoelectrochemical Hydrogen Production is a one-stop resource for scientists, students and R&D practitioners starting in this field, providing both the theoretical background as well as useful practical information on photoelectrochemical measurement techniques. Experts in the field benefit from the chapters on current state-of-the-art materials/devices and future directions.