查看完整版本: 推荐几本wiley上关于electrochemistry方面的新书。

推荐几本wiley上关于electrochemistry方面的新书。

1，Molten Carbonate Fuel Cells: Modeling, Analysis, Simulation, and Control
J)i#r*m$pSA Molten Carbonate Fuel Cells: Modeling, Analysis, Simulation, and Control]v&]*OD.g s
Kai Sundmacher (Editor), Achim Kienle (Editor), Hans Josef Pesch (Editor), Joachim F. Berndt (Editor), Gerhard Huppmann (Editor)
Do_o+y ISBN: 978-3-527-31474-4MSv!cnnI_
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Hardcover

v*O`o*_'m#VE1p5Lb 260 pages
+b1z~]9t{+_ August 2007
F(e9d}n|kz*[6t description：
;s]%{4GD)E a Adopting a unique, integrated engineering approach, this text simultaneously covers all aspects of design and operation, process analysis, optimization, monitoring and control. It clearly presents the multiple advantages of molten carbonate fuel cells for the efficient conversion of energy, and also includes recent developments in this innovative technology. The whole is rounded off by an appendix featuring benchmark problems with equations and parameters. ]ha rO
Vital reading for process, chemical and power engineers, as well as those working in power technology, chemists and electrochemists, materials scientists, and energy-supplying companies.
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somthing about author
Gt(OE3s6}#F'l Kai Sundmacher studied mechanical and chemical engineering at the Universities of Hanover, Braunschweig and Clausthal. After gaining his PhD in 1995 and his lecturing qualification in 1998 from TU Clausthal, he was a postdoctoral researcher at the University of Newcastle-upon-Tyne, UK. In 1999 he became a full professor for Process Systems Engineering at the Otto-von-Guericke University of Magdeburg, and since 2001 he is also the Director for Process Engineering at the Max Planck Institute for Dynamics of Complex Technical Systems in Magdeburg. Professor Sundmacher's current research interests include integrated chemical processes, dynamics of particulate processes, and dynamics of fuel cell systems. :zL0gj+`9[
Achim Kienle received his PhD and his lecturing qualification from the University of Stuttgart. He heads a research group on synthesis and dynamics of chemical processes at the Max-Planck-Institute for Dynamics of Complex Technical Systems in Magdeburg since 1998. In addition, he has held the chair for Automation/Modeling at the Department of Electrical Engineering and Information Technology at the Otto-von-Guericke University of Magdeburg since 2002. Professor Kienle's research interests include the synthesis and dynamics of integrated chemical processes, population balance modeling and dynamics of particulate processes, and dynamics and control of chemical plants. 8b5v5l+]n5edT}
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Hans Josef Pesch studied mathematics and physics at the University of Cologne, Germany, and obtained both his Ph.D. and his lecturing qualification from Munich University of Technology in 1978 and 1986, respectively. In 1987 he became a visiting professor at the University of California in San Diego. From 1988-1989 he held a professorship for mathematics and theoretical computer science at the University of the Armed Forces in Munich. After an extraordinary professorship at Munich University of Technology, he became a full professor for numerical mathematics and scientific computing at Clausthal University of Technology in 1995. Since 1999 he is a full professor for mathematics in engineering sciences at the University of Bayreuth. Professor Pesch has spent research stays at the universities in San Diego, Stanford, Berkeley, and Blacksburg as well as at the Academy of Sciences in Moscow and Warsaw. His current research interests include numerical mathematics, optimal control, scientific computing and technomathematics. 0i6f5U Z!s(Y"g,G[Ith
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Joachim Berndt studied mechanical engineering, materials engineering and welding technology. From 1960 on, he was an active engineer with different companies involved with process plant construction and power engineering. In 1983, he founded an engineering company for power and environmental engineering. He became speaker of the IPF Holding Company Berndt KG, Reilingen, Germany, in 1990. He works in the fields of planning, construction and contracting of combined heat and power plants (CHPs), power-heat-cold coupling plants as well as industrial and maritime fuel cell applications technologies.
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&NE,u? v y%H1K U1ZI The physicist Gerhard Huppmann is working since more than 30 years in the field of energy technologies with a focus on high effective renewable and secondary energy utilizing systems. Since 1989 in the field of carbonate fuel cells he created basically the design of MTU's Carbonate Fuel Cell HotModule. Head of the group "New Fuel Cell Concepts and Applications" at MTU CFC Solutions GmbH, a company of Tognum group. The design of the HotModule was awarded for innovations and future applications sponsored by the German gas business sector. Member and convener of several working groups within the IEC fuel cell standardization work and convener of the working group investigating "Fuels for Fuel Cells" under the IEA Implementing Agreement "Advanced Fuel Cells", Annex 19. Presentations on international seminars and symposia and author of many articles concerning fuel cells and their applications.

Nanostructured Materials in Electrochemistry

2,Nanostructured Materials in Electrochemistry1^d |-kmz%Ew4S
Nanostructured Materials in ElectrochemistryK3Z/eY?1[e%CF
Ali Eftekhari (Editor), Richard C. Alkire (Foreword by), Yury Gogotsi (Foreword by), Patrice Simon (Foreword by)
-^.xze*uQ^r8gN ISBN: 978-3-527-31876-6
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|B/egU Hardcover
6I2o^%G5u$K 489 pages$j&l%} zf
April 2008dcL'`8AYfB'M
Providing the unique and vital link between the worlds of electrochemistry and nanomaterials, this reference and handbook covers advances in electrochemistry through the nanoscale control of electrode structures, as well as advances in nanotechnology through electrochemical synthesis strategies. It demonstrates how electrochemical methods are of great scientific and commercial interest due to their low cost and high efficiency, and includes the synthesis of nanowires, nanoparticles, nanoporous and layered nanomaterials of various compositions, as well as their applications -- ranging from superior electrode materials to energy storage, biosensors, and electroanalytical devices. SHm%P'ytk
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~;OU1H%p Ali Eftekhari is a professor of chemistry and the director of the Avicenna Institute of Technology. He is the founder of various MSc programs in the field of nanotechnology, and, in addition to his scientific activities, is involved in establishing effective strategies of research, such as the electrochemistry division of the Materials and Energy Research Center (MERC) in Tehran, Iran. Professor Eftekhari is a Fellow of the Institute of Nanotechnology, has authored some 100 scientific publications while serving more than 40 leading journals as an editor or expert referee, has held over 200 presentations at international conferences, and has been a member of various advisory boards and scientific committees.

Introduction to Hydrogen Technology

3,Introduction to Hydrogen Technology
4J5e,dci2rE:p-p Introduction to Hydrogen Technology
0^z$RN r)LAT!u Roman J. Press, K. S. V. Santhanam, Massoud J. Miri, Alla V. Bailey, Gerald A. Takacs t'n%H1{)L`w X]A
ISBN: 978-0-471-77985-8
/^y&s k*y4i1Q5R Hardcover!F_:Vz&q/D.Y9l4r
316 pages*B#[Y i(X%L5po*O
July 2008-i2f"ZZU+K
This book raises awareness for renewable energy use and leads to preparation of a work force that will be ready for future challenges in the areas of energy generation, consumption, and commercialization of hydrogen-powered applications.%_O QmdHccD

1c:A*v#jX+q Y The book covers chemistry fundamentals to foster understanding of energy, hydrogen technology, renewable energies, and principles of its uses. The emphasis is on clean sources of energy, theory of fuel cell operations, hydrogen infrastructure, and devices that use hydrogen.4p1@}"Q:Aw
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* Provides basic knowledge about renewable energym&e{)mV
* Explains the chemistry of fuel cell performance
%Mu;{L.pob"~"I?} * Introduces the fundamentals of hydrogen production
Vn{4w6Ul * Enables readers to apply scientific knowledge to the solution of hydrogen-related problems

Carbon: Electrochemical and Physicochemical Properties

4,Carbon: Electrochemical and Physicochemical Properties1e6B5DL5Iq
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Carbon: Electrochemical and Physicochemical Properties
TN}c3n8t Dr. Kim Kinoshita U"kSeccq ^
ISBN: 978-0-471-84802-8
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@SedCcZ Hardcover
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l,] 560 pages
:} U8T}v1{o8uR3@ This reference brings together, for the first time, information on the electrochemical and physicochemical properties of carbon that are relevant to the understanding of its electrochemical behavior. The book is divided into three major sections. The first section reviews the manufacture and physicochemical properties of commercial carbons. The second section presents a discussion on the characteristics and types of carbon electrodes. The third section explores the wide range of applications of carbon in electrochemical systems. Features many tables and figures, as well as numerous references.

Advances in Electrochemical Science and Engineering, Volume 9

5,Advances in Electrochemical Science and Engineering, Volume 9
/i0`E!^ |J&z Richard C. Alkire (Series Editor), Dieter M. Kolb (Series Editor), Jacek Lipkowski (Series Editor), Phil Ross (Series Editor) S'S1L/uZ E
ISBN: 978-3-527-31317-4
8e TP7E*uqS(a$bV Hardcover
:s!Y U7h.{I2zN)i'W 445 pages
\&m@@V@Pu#d October 2006_/pHWS;f$a
This ninth volume in the series concentrates on in situ spectroscopic methods and combines a balanced mixture of theory and applications, making it highly readable for chemists and physicists, as well as for materials scientists and engineers. As with the previous volumes, all the chapters continue the high standards of this series, containing numerous references to further reading and the original literature, for easy access to this new field. The editors have succeeded in selecting highly topical areas of research and in presenting authors who are leaders in their fields, covering such diverse topics as diffraction studies of the electrode-solution interface, thin organic films at electrode surfaces, linear and non-linear spectroscopy as well as sum frequency generation studies of the electrified solid-solution interface, plus quantitative SNIFTIRS and PM-IRRAS. Special attention is paid to recent advances and developments, which are critically and thoroughly discussed.@!JfNCSj
The result is a compelling set of reviews, serving equally well as an excellent and up-to-date source of information for experienced researchers in the field, as well as as an introduction for newcomers.
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Richard C. Alkire, Department of Chemical Engineering, University of Illinois, Urbana, USA,Gi^s6@no1]5VOf

'QdT%~SN Dieter M. Kolb, Department of Electrochemistry, University of Ulm, Germany
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mI_MZ*hS Z&o Jacek Lipkowski, Department of Chemistry, University of Guelph, Canadaz}g V [%D:q
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Philip N. Ross, Materials Science Department, Lawrence Berkeley National Laboratory, Berkeley, USA +yL&_-OK4zj

"Tr7t_UV5w|3G reviews: "…highly recommended for all graduate and advanced undergraduate students…it would be of interest to a wide spectrum of professionals as well." (Journal of the American Chemical Society, December 26, 2007)

这一本不算是什么新书

Electrocatalysis6?R1W_a)~
Jacek Lipkowski (Editor), Phil Ross (Editor)
1{]S*u k8B/O ISBN: 978-0-471-24673-2
]+|`~+T%r!L0@$H HardcoverxF)m?!Z?
400 pages
,Mw4k8}~ April 1998G4]$Vx!X!jAeS
A comprehensive review of advances in one of today's most technologically important research fields.
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F\;gUEr!k Spurred on by society's increasingly urgent demand for an inexpensive, environment-friendly alternative to the internal combustion engine, research into electrocatalytic fuel cells has yielded many exciting advances in the past few years. This rapid rate of progress, however, has created a daunting challenge for anyone attempting to track the important new trends in electrocatalysis by sorting through the huge and rapidly growing body of world literature in the field.U1C-Z:Kg5y

O7TKHB;u,@ Electrocatalysis was designed to save scientists hours of arduous legwork by providing an authoritative review of the most important recent advances in all technologically relevant aspects of electrocatalysis. Leading researchers from North America, Europe, and the Far East share what they know about an array of related topics, including:0Em9@+g@1Y&u.w
* Electrocatalysis of hydrogen and oxygen electrode reactions'N-Z*h;\ fggs:H
* Electrooxidation of small organic molecules
W2c2]8CU/M4w * Design and synthesis of new electrocatalytic materials)a1{a8o'@o
* The distribution and storage of hydrogen in metal hydrides*p} Pj?+PzG S!tZ1l
* Hydrogenation of organic compounds as a means of hydrogen storage
Lsl&k ]}*A;F * Electron, ion, and atom transfer reactions
:Au*o-wJ]Y * Influence of the double-layer structure on the rate of charge transfer
jc,w;nu'?;I%z] * A unified theory of electron and ion transfer reactions at metal electrodes.
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Electrocatalysis is an indispensable working resource for electrochemists, chemical engineers, surface scientists, and materials scientists. Dj8ZI/UT

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-ksv1|1b JACEK LIPKOWSKI is Professor in the Department of Chemistry and Biochemistry, University of Guelph, Ontario, Canada. PHILIP N. ROSS is Senior Scientist and Head of the Advanced Spectroscopy Department in the Materials and Chemistry Sciences Division, Lawrence Berkeley Laboratory, University of California, Berkeley.

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其中电化学百科全书可以去[url]http://www.nanost.net/bbs/thread-20527-1-1.html[/url]看看，那里有全套10卷下载。

Fundamentals of Electrochemistry, 2nd Edition

8，Fundamentals of Electrochemistry, 2nd Edition
6xf8h'FZ Vladimir S. Bagotsky (Editor)
0}C nzK ISBN: 978-0-471-70058-6
*vP exakg#{\9J.P*j Hardcover
;b*zq+t+x3XnBi3y Y 752 pages
9Roq,o:G0V November 2005

Y%A;x\.wA#H Fundamentals of Electrochemistry provides the basic outline of most topics of theoretical and applied electrochemistry for students not yet familiar with this field, as well as an outline of recent and advanced developments in electrochemistry for people who are already dealing with electrochemical problems.
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The content of this edition is arranged so that all basic information is contained in the first part of the book, which is now rewritten and simplified in order to make it more accessible and used as a textbook for undergraduate students. More advanced topics, of interest for postgraduate levels, come in the subsequent parts.xQ5E5s'X}0@s;r

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I1\ This updated second edition focuses on experimental techniques, including a comprehensive chapter on physical methods for the investigation of electrode surfaces. New chapters deal with recent trends in electrochemistry, including nano- and micro-electrochemistry, solid-state electrochemistry, and electrocatalysis. In addition, the authors take into account the worldwide renewal of interest for the problem of fuel cells and include chapters on batteries, fuel cells, and double layer capacitors.

Fuel Cells, Engines and Hydrogen: An Exergy Approach

9，Fuel Cells, Engines and Hydrogen: An Exergy Approach`UKT4f)M
Frederick J. Barclay iFg'F
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ISBN: 978-0-470-01904-7
*XFB/{8rW3w Hardcover
#`5FZ wee*D 200 pagesC!D0@tKT
August 2006#Z6fp(V8hz7Aw~{
Wiley List Price:  US $120.00
LsK;Db Fuel cell technology is the most exciting and legitimate alternative source of power currently available to us as world resources of non-renewable fuel continue to be depleted. No other power generating technology holds the same benefits that fuel cells offer, including high reliability and efficiency, negligible environmental impact, and security of supply. Fuel cells run on hydrogen – the simplest and most plentiful gas in the universe - although they can also run on carbon monoxide, methane, or even coal. Their applications are diverse, from powering automobiles, buildings and portable electronics, to converting methane gas from wastewater plants and landfills into electricity.
K%MT!~3T&RY;H Fuel Cells, Engines and Hydrogen is a controversial text that challenges the accepted industry parameters for measuring fuel cell performance and efficiency. Based on his inter-disciplinary experience in the fields of power, nuclear power, and desalination, the author contends that the development potential of the fuel cell is related to the quantity fuel chemical exergy, which, like electrical potential, is a quantitative measure of work done. The fuel cell community currently characterises these devices in terms of the enthalpy of combustion (calorific value) – however the author argues a correct, qualitatively different and fourfold larger characterisation is via the fuel chemical exergy, in units of work, and not energy. He asserts that the distortion introduced by this accepted perspective needs to be corrected before relatively efficient fuel cells, integrated with comparatively low performing gas turbines, reach the market. D-lY/^^3WSza
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Fuel Cells, Engines and Hydrogen features a foreword by Dr Gerry Agnew, Executive VP Engineering of Rolls Royce Fuel Cells Systems Ltd. It is essential reading for all engineers involved with fuel cells and/ or the manufacture of hydrogen from natural gas, as well as academics in related disciplines such as thermodynamics, physical chemistry, materials, physics, mechanical and chemical engineering.

Electrochemistry for Chemists, 2nd Edition

10，Electrochemistry for Chemists, 2nd Edition
8j6ndCER1J#N?%t Donald T. Sawyer, Andrzej Sobkowiak, Julian L. Roberts
qdZ2I2_g ISBN: 978-0-471-59468-0 r rq*H8a}6pKa
Hardcover
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E7n6~Im"W%g^ 528 pages
2y S9z^;Q October 1995
AVkh,{ x A complete and practical guide to the basic principles of electrochemistry for the nonspecialist
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Emphasizing practical applications and real-world experimentation, Electrochemistry for Chemists gives chemists, biologists, and material scientists a solid understanding of the basic principles and modern methodology of electrochemistry. Incorporating the many new applications of recent years, this thoroughly updated Second Edition gives the nonelectrochemist access to a powerful tool for the study and measurement of chemical systems. And, like the popular first edition, the Second Edition is also a useful text for senior undergraduate and graduate students, especially in organic, inorganic, and biological chemistry.B(|`0DHZ
* Offers a practical guide to the use of electrochemical methods in research and laboratory work
3gGa"J't'V * Provides examples of molecular characterization by electrochemical methods in all subdivisions of chemistry, including dioxygen species, base metals, and nonmetals
ZY h"j4ND * Includes numerous tables of electrochemical data, as well as physical parameters for solvents, electrolytes, cells, and electrodes+h4CnM)ip!RR
* Incorporates the latest information on instrumentation, solvents, and reagents
q r&L h&h * Lists extensive references for further study of theoretical issues

Electrochemical Systems, 3rd Edition

11，Electrochemical Systems, 3rd Edition
e8h|9rA"kD9G John Newman, Karen E. Thomas-Alyea 7W0i%MG"o7b
ISBN: 978-0-471-47756-3
3?@"cT/x-FI3K7j Hardcover)^]9Pj2l9D'wy
672 pages
/[3U YI#~"m2_g!~5u May 2004
#uPh(p:W0s B^)V@ The new edition of the cornerstone text on electrochemistry
Ix8[Y:]U2]T Spans  all the areas of electrochemistry, from the basics of thermodynamics and electrode kinetics to transport phenomena in electrolytes, metals, and semiconductors. Newly updated and expanded, the Third Edition covers important new treatments, ideas, and technologies while also increasing the book's accessibility for readers in related fields.
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!v.}'\;zQ-F(s Rigorous and complete presentation of the fundamental concepts
%Cj|qs In-depth examples applying the concepts to real-life design problems 0q:K&f4E&}
Homework problems ranging from the reinforcing to the highly thought-provoking ,TDDA k/Gz%UI
Extensive bibliography giving both the historical development of the field and references for the practicing electrochemist.
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Search the full text of this book:      
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没有地方下载啊:$

都是不错的书,希望能够分享一下 !加油啊!

很好很全面！:lol

不错的书,希望能够分享一下!