Mendeley出力
<図書>
Modern aspects of electrochemistry
| 責任表示 | edited by J. O'M. Bockris and B.E. Conway |
|---|---|
| データ種別 | 図書 |
| 出版者 | London : Butterworths |
| 出版者 | New York : Plenum Press |
| 出版年 | 1964- |
| 本文言語 | 英語 |
| 大きさ | v. ; 22 cm |
| 概要 | Recognized experts present incisive analysis of both fundamental and applied problems in this continuation of a highly-acclaimed series. Topics discussed include: The way in which electrochemical sys...ems may function as on a single electrode; The foundational area of voltaic measurements at liquid interfaces; Direct methanol fuel cells, which would avoid the unpleasant necessity faced by the current general of fuel cells - namely, using hydrogen; Dynamic processes in molten salts; Electrochemical techniques and Microbial Induced Corrosion (MIC). Recognized experts present incisive analysis of both fundamental and applied problems in this continuation of a highly-acclaimed series. Topics discussed include: The way in which electrochemical systems may function as on a single electrode; The foundational area of voltaic measurements at liquid interfaces; Direct methanol fuel cells, which would avoid the unpleasant necessity faced by the current general of fuel cells - namely, using hydrogen; Dynamic processes in molten salts; Electrochemical techniques and Microbial Induced Corrosion (MIC). Recognized experts present incisive analysis of both fundamental and applied problems in this continuation of a highly-acclaimed series. Topics discussed include: The way in which electrochemical systems may function as on a single electrode; The foundational area of voltaic measurements at liquid interfaces; Direct methanol fuel cells, which would avoid the unpleasant necessity faced by the current general of fuel cells - namely, using hydrogen; Dynamic processes in molten salts; Electrochemical techniques and Microbial Induced Corrosion (MIC). Recognized experts present incisive analysis of both fundamental and applied problems in this continuation of a highly-acclaimed series. Topics discussed include: The way in which electrochemical systems may function as on a single electrode; The foundational area of voltaic measurements at liquid interfaces; Direct methanol fuel cells, which would avoid the unpleasant necessity faced by the current general of fuel cells - namely, using hydrogen; Dynamic processes in molten salts; Electrochemical techniques and Microbial Induced Corrosion (MIC). Recognized experts present incisive analysis of both fundamental and applied problems in this continuation of a highly-acclaimed series. Topics discussed include: The way in which electrochemical systems may function as on a single electrode; The foundational area of voltaic measurements at liquid interfaces; Direct methanol fuel cells, which would avoid the unpleasant necessity faced by the current general of fuel cells - namely, using hydrogen; Dynamic processes in molten salts; Electrochemical techniques and Microbial Induced Corrosion (MIC). Recognized experts present incisive analysis of both fundamental and applied problems in this continuation of a highly-acclaimed series. Topics discussed include: The way in which electrochemical systems may function as on a single electrode; The foundational area of voltaic measurements at liquid interfaces; Direct methanol fuel cells, which would avoid the unpleasant necessity faced by the current general of fuel cells - namely, using hydrogen; Dynamic processes in molten salts; Electrochemical techniques and Microbial Induced Corrosion (MIC). Recognized experts present incisive analysis of both fundamental and applied problems in this continuation of a highly-acclaimed series. Topics discussed include: The way in which electrochemical systems may function as on a single electrode; The foundational area of voltaic measurements at liquid interfaces; Direct methanol fuel cells, which would avoid the unpleasant necessity faced by the current general of fuel cells - namely, using hydrogen; Dynamic processes in molten salts; Electrochemical techniques and Microbial Induced Corrosion (MIC). Recognized experts present incisive analysis of both fundamental and applied problems in this continuation of a highly-acclaimed series. Topics discussed include: The way in which electrochemical systems may function as on a single electrode; The foundational area of voltaic measurements at liquid interfaces; Direct methanol fuel cells, which would avoid the unpleasant necessity faced by the current general of fuel cells - namely, using hydrogen; Dynamic processes in molten salts; Electrochemical techniques and Microbial Induced Corrosion (MIC). Recognized experts present incisive analysis of both fundamental and applied problems in this continuation of a highly-acclaimed series. Topics discussed include: The way in which electrochemical systems may function as on a single electrode; The foundational area of voltaic measurements at liquid interfaces; Direct methanol fuel cells, which would avoid the unpleasant necessity faced by the current general of fuel cells - namely, using hydrogen; Dynamic processes in molten salts; Electrochemical techniques and Microbial Induced Corrosion (MIC). Recognized experts present incisive analysis of both fundamental and applied problems in this continuation of a highly-acclaimed series. Topics discussed include: The way in which electrochemical systems may function as on a single electrode; The foundational area of voltaic measurements at liquid interfaces; Direct methanol fuel cells, which would avoid the unpleasant necessity faced by the current general of fuel cells - namely, using hydrogen; Dynamic processes in molten salts; Electrochemical techniques and Microbial Induced Corrosion (MIC). Recognized experts present incisive analysis of both fundamental and applied problems in this continuation of a highly-acclaimed series. Topics discussed include: The way in which electrochemical systems may function as on a single electrode; The foundational area of voltaic measurements at liquid interfaces; Direct methanol fuel cells, which would avoid the unpleasant necessity faced by the current general of fuel cells - namely, using hydrogen; Dynamic processes in molten salts; Electrochemical techniques and Microbial Induced Corrosion (MIC). Recognized experts present incisive analysis of both fundamental and applied problems in this continuation of a highly-acclaimed series. Topics discussed include: The way in which electrochemical systems may function as on a single electrode; The foundational area of voltaic measurements at liquid interfaces; Direct methanol fuel cells, which would avoid the unpleasant necessity faced by the current general of fuel cells - namely, using hydrogen; Dynamic processes in molten salts; Electrochemical techniques and Microbial Induced Corrosion (MIC). Recognized experts present incisive analysis of both fundamental and applied problems in this continuation of a highly-acclaimed series. Topics discussed include: The way in which electrochemical systems may function as on a single electrode; The foundational area of voltaic measurements at liquid interfaces; Direct methanol fuel cells, which would avoid the unpleasant necessity faced by the current general of fuel cells - namely, using hydrogen; Dynamic processes in molten salts; Electrochemical techniques and Microbial Induced Corrosion (MIC). Recognized experts present incisive analysis of both fundamental and applied problems in this continuation of a highly-acclaimed series. Topics discussed include: The way in which electrochemical systems may function as on a single electrode; The foundational area of voltaic measurements at liquid interfaces; Direct methanol fuel cells, which would avoid the unpleasant necessity faced by the current general of fuel cells - namely, using hydrogen; Dynamic processes in molten salts; Electrochemical techniques and Microbial Induced Corrosion (MIC). Recognized experts present incisive analysis of both fundamental and applied problems in this continuation of a highly-acclaimed series. Topics discussed include: The way in which electrochemical systems may function as on a single electrode; The foundational area of voltaic measurements at liquid interfaces; Direct methanol fuel cells, which would avoid the unpleasant necessity faced by the current general of fuel cells - namely, using hydrogen; Dynamic processes in molten salts; Electrochemical techniques and Microbial Induced Corrosion (MIC). Recognized experts present incisive analysis of both fundamental and applied problems in this continuation of a highly-acclaimed series. Topics discussed include: The way in which electrochemical systems may function as on a single electrode; The foundational area of voltaic measurements at liquid interfaces; Direct methanol fuel cells, which would avoid the unpleasant necessity faced by the current general of fuel cells - namely, using hydrogen; Dynamic processes in molten salts; Electrochemical techniques and Microbial Induced Corrosion (MIC). Recognized experts present incisive analysis of both fundamental and applied problems in this continuation of a highly-acclaimed series. Topics discussed include: The way in which electrochemical systems may function as on a single electrode; The foundational area of voltaic measurements at liquid interfaces; Direct methanol fuel cells, which would avoid the unpleasant necessity faced by the current general of fuel cells - namely, using hydrogen; Dynamic processes in molten salts; Electrochemical techniques and Microbial Induced Corrosion (MIC). Recognized experts present incisive analysis of both fundamental and applied problems in this continuation of a highly-acclaimed series. Topics discussed include: The way in which electrochemical systems may function as on a single electrode; The foundational area of voltaic measurements at liquid interfaces; Direct methanol fuel cells, which would avoid the unpleasant necessity faced by the current general of fuel cells - namely, using hydrogen; Dynamic processes in molten salts; Electrochemical techniques and Microbial Induced Corrosion (MIC). Recognized experts present incisive analysis of both fundamental and applied problems in this continuation of a highly-acclaimed series. Topics discussed include: The way in which electrochemical systems may function as on a single electrode; The foundational area of voltaic measurements at liquid interfaces; Direct methanol fuel cells, which would avoid the unpleasant necessity faced by the current general of fuel cells - namely, using hydrogen; Dynamic processes in molten salts; Electrochemical techniques and Microbial Induced Corrosion (MIC). Recognized experts present incisive analysis of both fundamental and applied problems in this continuation of a highly-acclaimed series. Topics discussed include: The way in which electrochemical systems may function as on a single electrode; The foundational area of voltaic measurements at liquid interfaces; Direct methanol fuel cells, which would avoid the unpleasant necessity faced by the current general of fuel cells - namely, using hydrogen; Dynamic processes in molten salts; Electrochemical techniques and Microbial Induced Corrosion (MIC). Recognized experts present incisive analysis of both fundamental and applied problems in this continuation of a highly-acclaimed series. Topics discussed include: The way in which electrochemical systems may function as on a single electrode; The foundational area of voltaic measurements at liquid interfaces; Direct methanol fuel cells, which would avoid the unpleasant necessity faced by the current general of fuel cells - namely, using hydrogen; Dynamic processes in molten salts; Electrochemical techniques and Microbial Induced Corrosion (MIC). Recognized experts present incisive analysis of both fundamental and applied problems in this continuation of a highly-acclaimed series. Topics discussed include: The way in which electrochemical systems may function as on a single electrode; The foundational area of voltaic measurements at liquid interfaces; Direct methanol fuel cells, which would avoid the unpleasant necessity faced by the current general of fuel cells - namely, using hydrogen; Dynamic processes in molten salts; Electrochemical techniques and Microbial Induced Corrosion (MIC). Recognized experts present incisive analyses of both fundamental and applied problems in this continuation of a highly acclaimed series. Topics in Number 35 include: Impedance spectroscopy with specific applications to electrode processes involving hydrogen; Fundamentals and contemporary applications of electroless metal deposition; The development of computational electrochemistry and its application to electrochemical kinetics; Analysis of electrolyte solutions at high concentrations; Applications of the Born theory to solvent polarization by ions and its extensions to treatment of kinetics of ionic reactions. /LIST This volume in the acclaimed series Modern Aspects of Electrochemistry starts with a dedication to the late Professor Brian Conway who for 50 years helped to guide this series to its current prominence. The book then covers a broad range of topics in Electrochemistry. The Volume will cover a broad range of topics in Electrochemistry in an authoritative manner by internationally renowned specialists. The topics include a survey of experimental techniques of solid state electrochemistry, an overview of theoretical advances in quantitative treatment of solute-solvent interactions and an analysis of the formation mechanisms of porous silicon. Particular emphasis will be given to recent advances in the very active area of fuel cell electrocatalysis. Recent advances on the use of electrochemistry in Medicine will be surveyed in a chapter by Dr. A. Vijh. This volume in the acclaimed series Modern Aspects of Electrochemistry starts with a dedication to the late Professor Brian Conway who for 50 years helped to guide this series to its current prominence. The book then covers a broad range of topics in Electrochemistry. Topics in Number 41 include: Solid State Electrochemistry, including the major electrochemical parameters needed for the treatment of electrochemical cells as well as the discussion of electrochemical energy storage and conversion devices such as fuel cells. Nanoporous carbon and its electrochemical application to electrode materials for super capacitors in relationship to the key role nanoporous carbons have played in the purification of liquids and the storage of energy. The analysis of variance and covariance in electrochemical science and engineering. The use of graphs in electrochemical reaction networks, specifically (1) reaction species graphs, (2) reaction mechanism graphs, and (3) reaction route graphs. Book jacket. An analysis of recent developments in several key interfacial electrochemical systems in fuel cell electrocatalysis, electrosynthesis, and electrodeposition. Written by international experts, chapters cover several key emerging electrochemical technologies. This volume contains eight chapters dealing with modeling and numeric simulations. Topics in Number 43 include: This volume is an introductory resource aimed at practitioners of electrochemistry research mainly at the atomic, molecular or macromolecular levels. The material covered provides understanding of electrochemical phenomena and materials at the nanoscale. This volume maintains the series high standards, containing chapters covering topics such as the cathodic reduction of nitrate, and including discussion of product selectivity, current efficiency, and the thermodynamics and kinetics for the reactions studied. Topics in Number 46 include: In the past few decades, research in the science of electrodeposition of metals has shown the important practical applications of electronic, magnetic, energy devices and biomedical materials. This new volume reviews those latest developments in the field. This volume, presented by leading experts in the field, covers the latest advances in diagnostics and modeling of polymer electrolyte fuel cells, from understanding catalyst layer durability to start-up under freezing conditions. 続きを見る |
所蔵情報
| 状態 | 巻次 | 所蔵場所 | 請求記号 | 刷年 | 文庫名称 | 資料番号 | コメント | 予約・取寄 | 複写申込 | 自動書庫 |
|---|---|---|---|---|---|---|---|---|---|---|
| no. 3 | 【故障中】理系図 自動書庫 | 431.18/Mo 13/(3) |
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068222480095820 |
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| no. 3 | 工材料工学 2-4 | E/Bo | 1964 |
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027232003065157 |
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| no. 4 | 筑紫図 1C-1D 洋400-499 | 431.7/B 61/4 | 1966 |
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062231998007467 |
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| no. 5 | 総理工 研究室 | 431.705/Mo 13/5 | 1969 |
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062231998009777 |
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| no. 6 | 筑紫図 1C-1D 洋400-499 | 431.7/B 61 | 1971 |
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062231998007761 |
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| no. 7 | 総理工 研究室 | 431.705/Mo 13/7 | 1972 |
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062231998009741 |
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| no. 8 | 【故障中】理系図 自動書庫 | 431.27/Mo 13/1(8) | 1972 |
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058211981331415 |
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| no. 8 | 総理工 研究室 | 431.705/Mo 13/8 | 1972 |
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062231998009691 |
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| no. 9 | 【故障中】理系図 自動書庫 | 431.27/Mo 13/1(9) | 1974 |
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058211981331427 |
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| no. 10 | 【故障中】理系図 自動書庫 | 431.27/Mo 13/1(10) | 1975 |
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058211981331430 |
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| no. 13 | 【故障中】理系図 自動書庫 | 431.27/Mo 13/1(13) | 1979 |
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058211981331442 |
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| no. 14 | 総理工 研究室 | 431.7/B 61/14 | 1982 |
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062231998011111 |
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| no. 22 | 工材料工学 9 | 431.7/B | 1992 |
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068252194005713 |
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子書誌情報
| 1 | no. 52, 53 Applications of electrochemistry and nanotechnology in biology and medicine / Noam Eliaz, editor 1,2 : hbk,2 : e-book. - New York : Springer , c2011- |
| 2 | no. 58 Electrolytes for lithium and lithium-ion batteries / T. Richard Jow ... [et al.], editors New York : Springer , c2014 |
書誌詳細
| 一般注記 | no.1-2 シリーズ名があるので別書誌<BA10957654><BA14029263> Imprint varies no.4-: Plenum Press No. 35-38: published by Kluwer Academic/Plenum Publishers No. 39-42, 44-45, 48-49: published by Springer Editors, no. 1- J. O'M. Bockris (with B.E. Conway, no. 3- ; Ralph E. White, no. 14- ) No. 35: edited by Brian E. Conway and Ralph E. White No. 36-37,41-42: edited by C. G. Vayenas ...[et al.] No. 43-44: edited by Mordechay Schlesinger No. 45: series edited by Ralph E. White, Constantinos G. Vayenas and Maria E. Gamboa-Aldeco No. 48: edited by Stojan S. Djokić No. 49: edited by Ugur Pasaogullari, Chao-Yang Wang No. 47: series editors by Ralph E. White, Constantinos G.Vayenas 子書誌あり |
|---|---|
| 著者標目 | Bockris, J. O'M. (John O'M.), 1923- Conway, B. E. White, Ralph E. Vayenas, C.G. Schlesinger, Mordechay Gamboa-Aldeco, Maria E. Djokić, Stojan S Pasaogullari, Ugur Wang, Chao-Yang |
| 分 類 | DC18:541.37 |
| 書誌ID | 1000463156 |
| ISBN | 0306376466 |
| NCID | BA0069235X |
| 巻冊次 | no. 3 no. 4 no. 5 no. 6 ; ISBN:0306376466 no. 7 ; ISBN:0306376474 no. 8 ; ISBN:0306376482 no. 9 ; ISBN:0306376490 no. 10 ; ISBN:0306376504 no. 11 ; ISBN:0306376512 no. 12 ; ISBN:0306376520 no. 13 ; ISBN:0306402564 no. 14 ; ISBN:0306408457 no. 15 ; ISBN:030641287X no. 16 ; ISBN:0306420244 no. 17 ; ISBN:0306421496 no. 18 ; ISBN:030642312X no. 19 ; ISBN:0306429543 no. 20 ; ISBN:0306431270 no. 21 ; ISBN:0306433133 no. 22 ; ISBN:030644061X ; XISBN:030611061X no. 23 ; ISBN:0306441640 no. 24 ; ISBN:0306442884 no. 25 ; ISBN:0306443759 no. 26 ; ISBN:0306446081 no. 27 ; ISBN:0306449307 no. 28 ; ISBN:0306451468 no. 29 ; ISBN:030645162X no. 30 ; ISBN:0306454505 no. 31 ; ISBN:0306456508 no. 32 ; ISBN:0306459647 no. 33 ; ISBN:030645968X no. 34 ; ISBN:0306464624 no. 35 ; ISBN:0306467763 no. 36 ; ISBN:0306474921 no. 37 ; ISBN:0306482266 no. 38 ; ISBN:0306487039 no. 39 ; ISBN:0387233717 ; XISBN:9780387233710 no. 40 ; ISBN:9780387460994 ; XISBN:0387460993 no. 41 ; ISBN:9780387461076 ; XISBN:0387461078 no. 42 ; ISBN:9780387494883 no. 42 [: pbk] ; ISBN:9781441923837 no. 43 ; ISBN:9780387495804 ; XISBN:9780387495828 no. 44 ; ISBN:9780387495842 no. 45 ; ISBN:9781441906540 no. 46 ; ISBN:9780387922621 no. 47 ; ISBN:9781441955777 no. 48 ; ISBN:9781441955883 no. 49 ; ISBN:9780387980676 |
| 登録日 | 2009.09.14 |
| 更新日 | 2019.02.25 |