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In an age of global industrialisation and population growth, the area of energy is one that is very much in the public consciousness. Fundamental scientific research is recognised as being crucial to delivering solutions to these issues, particularly to yield novel means of providing efficient, ideally recyclable, ways of converting, transporting and delivering energy.

This volume considers a selection of the state-of-the-art materials that are being designed to meet some of the energy challenges we face today. Topics are carefully chosen that show how the skill of the synthetic chemist can be applied to allow the targeted preparation of inorganic materials with properties optimised for a specific application.

Four chapters explore the key areas of:

• Polymer Electrolytes
• Advanced Inorganic Materials for Solid Oxide Fuel Cells
• Solar Energy Materials
• Hydrogen Adsorption on Metal Organic Framework Materials for Storage Applications

Energy Materials provides both a summary of the current status of research, and an eye to how future research may develop materials properties further.

Additional volumes in the Inorganic Materials Series:
Molecular Materials
Functional Oxides
Porous Materials
Low-Dimensional Solids

• Sales Rank: #3630224 in Books
• Published on: 2011-03-28
• Original language: English
• Number of items: 1
• Dimensions: 9.21" h x .85" w x 6.42" l, 1.10 pounds
• Binding: Hardcover
• 304 pages

From the Back Cover
In an age of global industrialisation and population growth, the area of energy is one that is very much in the public consciousness. Fundamental scientific research is recognised as being crucial to delivering solutions to these issues, particularly to yield novel means of providing efficient, ideally recyclable, ways of converting, transporting and delivering energy.

This volume considers a selection of the state-of-the-art materials that are being designed to meet some of the energy challenges we face today. Topics are carefully chosen that show how the skill of the synthetic chemist can be applied to allow the targeted preparation of inorganic materials with properties optimised for a specific application.

Four chapters explore the key areas of:

• Polymer Electrolytes
• Advanced Inorganic Materials for Solid Oxide Fuel Cells
• Solar Energy Materials
• Hydrogen Adsorption on Metal Organic Framework Materials for Storage Applications

Energy Materials provides both a summary of the current status of research, and an eye to how future research may develop materials properties further.

Additional volumes in the Inorganic Materials Series: Molecular Materials | Functional Oxides | Porous Materials | Low-Dimensional Solids

About the Author
Professor Duncan Bruce graduated from the University of Liverpool (UK), where he also gained his PhD. In 1984, he took up a Temporary Lectureship in Inorganic Chemistry at the University of Sheffield and was awarded a Royal Society Warren Research Fellowship. He was then appointed Lecturer in Chemistry and was promoted Senior Lecturer in 1994, in which year he became co-director of the Sheffield Centre for Molecular Materials. In 1995, he was appointed Professor of Inorganic Chemistry at the University of Exeter. Following the closure of Exeter's chemistry department in 2005, Professor Bruce took up his present position as Professor of Materials Chemistry in York. He is currently Chair of the Royal Society of Chemistry Materials Chemistry Forum. His current research interests include liquid crystals and nanoparticle-doped, nanostructured, mesoporous silicates. His work has been recognized by various awards including the British Liquid Crystal Society's first Young Scientist prize and the RSC's Sir Edward Frankland Fellowship and Corday-Morgan Medal and Prize. He has held visiting positions in Australia, France, Japan and Italy.

Dr. Richard Walton, who was also formerly based in the Department of Chemistry at the University of Exeter, now works in the Department of Chemistry at the University of Warwick. His research group works in the area of solid-state materials chemistry and has a number of projects focusing upon the synthesis, structural characterization and properties of inorganic materials.

Dermot O'Hare is Professor in the Chemistry Research Laboratory at the University of Oxford. His research group has a wide range of research interests. They all involve synthetic chemistry ranging from organometallic chemistry to the synthesis of new microporous solids.
Duncan Bruce and Dermot O'Hare have edited several editions of "Inorganic Materials" published by John Wiley & Sons Ltd.

Most helpful customer reviews

0 of 0 people found the following review helpful.
many good prospects - emphasis on solar cells
By W Boudville
A collection of recent research papers on promising materials for energy storage or collection. For the latter, one chapter looks at solar cells, mostly photovoltaics, as opposed to photothermal efforts. Of the book's 4 chapters, this is by far the longest. About half the book's length. This probably reflects [pun] the maturity of the field and the amount of effort invested in the studies. You should look at the subsection on the development of PV technology. It quickly but thoroughly goes into the first generation of crystalline silicon cells, then the second generation of thin films. Of the latter, amorphous silicon is the best developed. In no small part because the lowest fabrication costs compared to making crystalline cells. The chapter reminds us that silicon is not the only material. Compound semiconductors of copper, indium and gallium, along with cadmium telluride have demonstrated tangible high efficiencies, that somewhat make up for the more expensive material costs.

The chapter also looks into the possibility of nanotechnology, in the design of more complex multijunction devices at very small scales. To better appreciate the chapter, it would help to have taken an undergraduate course in condensed matter physics. So that when the text shows a diagram of the conduction and valence bands in a heterojunction, and the corresponding electron and hole flow under illumination by photons in the sunlight, you can follow the discourse. The background of having read standard texts like Kittel, Introduction to Solid State Physics, or Ashcroft, Solid State Physics, is what I mean.

Another major topic is the use of dyes in solar cells. A qualitative change from the other studies, and one where there is more of an emphasis on the chemistry of the reactions. Here, your background might have covered the equivalent of Chemistry: An Introduction to General, Organic, and Biological Chemistry with MasteringChemistry® (11th Edition).

The other chapters are somewhat cursory. On fuel cells, polymer electrolytes and metal organic frameworks. Each undoubtedly deserves more space, but the book had to be kept to a reasonable length.

0 of 0 people found the following review helpful.
Excellent overview of energy storage and conversion
By R. Mutt
This book provides very engaging and relevant information concerning some of the important materials technologies being used or investigated for use in the energy storage and the conversion of energy from one form to a more readily usable form (usually from chemical or solar to electrical). The book is highly technical, and provides only cursory treatment to the background sciences that are discussed. The intended audience is the science and industrial community looking to expand their understanding of the materials systems covered and to broaden their knowledge on energy materials in general. For this audience, this is a valuable book. The topics are relatively current and are important in modern research.

This book is not likely going to be valuable to the casual reader and it is not really geared toward first or second year science students. The book is essentially a review and compilation of scientific research into the four main materials systems covered. The book covers Polymer Electrolytes, Advanced Inorganic Materials for Solid Oxide Fuel Cells, Solar Energy Materials, Hydrogen Adsorption on Metal Organic Framework Materials for Storage Applications.

All of these topics are covered adequately to give the seasoned scientist, engineer or industry technologist a solid foundation of knowledge. This book could serve as a resource for people that are looking to engage in research on any of the topics covered, but additional resource volumes would probably be needed to have an adequately comprehensive library on any of the topics.

0 of 0 people found the following review helpful.
A great book - it makes me want to learn more about chemistry and its concepts...
By D. Pawl
I won't lie. I failed high school Chemistry class. It was a subject I always wanted to know more about, but, just wasn't motivated. Energy Materials (Inorganic Materials Series) gives us deeper insight into the future of alternative energy and materials.

One passage that especially got my attention examined the Photovoltaics Industry (solar energy). That involves off-grid, non-domestic systems like tele-comunications, water pumping, navigational aids, vaccine refrigeration and other applications where small amounts of electricity have a high value. Another type of this energy is grid-connected systems, like power stations.

Another passage examines the development of PV Technology. The first generation is crystalline silicon (ic-Si) prevalent in silicon wafers. The second generation is thin-film technologies. This involves building integration, higher battery charging currents, and amorphous silicon for products like watches and calculators. The third generation is nanotechnology. That includes flexible steel and architectural glass.

Note: This book is highly technical. In other words, if you aren't familiar with post Graduate level Chemistry terms, you really might need to do some background research just to understand the formulas, terminology and concepts vividly presented here. Nevertheless, brilliantly written and insightful.

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