Encyclopedia of Inorganic Chemistry (10 Volumes)
Review
"This work is a revision of the 1994 edition, the only work of its kind…highly recommended।" (CHOICE, May 2006) "Like its predecessor, this second edition assumes a crucial place on the chemistry reference shelf: it is more in-depth than a single-volume dictionary...more accessible than treatises...and more focused than a general chemistry encyclopedia…" (Library Journal, February 2006) "This excellent, up-to-date, comprehensive, easy-to-use, definitive, and modestly priced reference work provides more information than is available in single-volume works…" (The Chemical Educator, January/February 2006) "...excellent, up-to-date, easy-to-use, definitive, and modestly priced reference work..." (Chemical Educator, Vol 11, 2006) “There is immense knowledge embodied in these volumes।” (Chemistry & Industry, June 2006)
Product Description
The ultimate resource on inorganic chemistry – new and completely revised, 10 years after publication of the First Edition The first edition of the Encyclopedia of Inorganic Chemistry treated the elements of the periodic system in alphabetical order, with multiple entries for key elements. The articles from the First Edition were written more than 10 years ago and all areas of inorganic chemistry have seen such a vigorous development that it was necessary to update most articles and to add a considerable number of new articles. The result of this major work is the proud Encylopedia of Inorganic Chemistry Second Edition (EIC-2). * New – now includes colour * 30 0rowth on previous edition – now 6,640 pages, published in 10 volumes EIC-2 continues to present articles in alphabetical order, but the content has been slightly reorganized to the following subject areas: Main Group Elements; Transition Metals and Coordination Chemistry; Organometallic Chemistry; Bioinorganic Chemistry; Solid State, Materials, Nanomaterials and Catalysis; and General Inorganic Chemistry, Theoretical and Computational Methods. Media Review During the first four decades of the 20th century inorganic chemistry languished in the doldrums until the post-World War II period ushered in the resurgence in the field that the late Sir Ronald S. Nyholm called the “renaissance of inorganic chemistry” [1]. Inorganic chemistry encompasses an amazing variety of structurally diverse substances—molecular, ionic, coordination, organometallic, and nonmolecular compounds of the roughly hundred elements now known (with the exception of those compounds of carbon that are the province of organic chemistry) as well as special materials such as metallobiomolecules, semiconductors, superconductors, ceramics, and minerals. Their great structural diversity also makes them extremely important as fine chemicals, catalysts, industrial feedstocks, and advanced materials. Inorganic chemistry also plays a significant role in life processes because of the action of metalloenzymes and the importance of metals in protein and nucleic acid structure. We have long had available multi-volume treatises on the elements and their compounds. These include Gmelins Handbuch der anorganischen Chemie [2], J. Newton Friend's Textbook of Inorganic Chemistry [3], Joseph William Mellor's Comprehensive Treatise on Inorganic and Theoretical Chemistry [4], Paul Pascal's Nouveau Traité de chimie minérale [5], and Nevil Vincent Sidgwick's The Chemical Elements and Their Compounds [6]. More recently, modern comprehensive monographs on specialized aspects of inorganic chemistry have been published. These include Sir Geoffrey Wilkinson, Robert D. Gillard, and Jon A. McCleverty's 7-volume Comprehensive Coordination Chemistry [7], Jon A. McCleverty and T. J. Myers’s 10-volume Comprehensive Coordination Chemistry II [8], Sir Geoffrey Wilkinson, F. Gordon A. Stone, and Edward W. Abel's 9-volume Comprehensive Organometallic Chemistry [9], and Edward W. Abel, F. Gordon A. Stone, and Sir Geoffrey Wilkinson's 14-volume Comprehensive Organometallic Chemistry II [10]. Perhaps the multi-volume set that came closest to the volume under review here is M. Cannon Sneed, J. Lewis Maynard, and Robert C. Brasted's projected 11-volume Comprehensive Inorganic Chemistry [11], but only eight volumes were published, and it was more of a textbook by a limited number (15) of authors than a true encyclopedia. However, despite the increased activity in the field during the past half-century, inorganic chemistry lacked a modern comprehensive encyclopedia. Thus, when the first edition of the Encyclopedia of Inorganic Chemistry (EIC-1) [12] appeared in 1994, it filled a real gap in the literature. During the decade since the publication of EIC-1 such significant, exciting progress in many areas of inorganic chemistry has taken place that a new edition (EIC-2) became necessary and timely. Such areas of development include metalloenzymes, nanostructures, chemical structure and bonding, and computational methods based on density functional theory. The encyclopedia has grown from eight to ten volumes, an increase of more than 30 percent (6333 vs. 4819 pp). Once again, R. Bruce King, who served as Editor-in-Chief of the first edition, has reprised this role in EIC-2. He has also served as Editor for General Principles, Theoretical and Computational Methods. In addition, he has contributed articles on Polyhedra, Quasicrystals, and Symmetry Point Groups. King received his B.A. degree from Oberlin College in 1957 and was an NSF Predoctoral Fellow with F. Gordon A. Stone at Harvard University from which he received his Ph.D. degree in 1961. After a year at Du Pont and 4-1/2 years at the Mellon Institute, he joined the faculty of the University of Georgia, where he has been Regents’ Professor of Chemistry since 1973. His American Chemical Society awards include those in Pure Chemistry (1971) and Inorganic Chemistry (1991). His research interests range from synthetic organometallic and organophosphorus chemistry to applications to inorganic chemistry of topology and graph theory and nuclear waste treatment. Together with an Editorial Board of four prominent American chemists and an International Advisory Board of 12 chemists from ten countries, including 1987 Nobel chemistry laureate Jean-Marie Lehn of the Université Strasbourg, King has assembled an outstanding group of 391 contributors from 24 countries to produce what should be a definitive reference source for some time to come and “a work that correctly portrays the relevance and achievements of modern inorganic chemistry” (p viii). Editors from EIC-1 who have served as Subject Editors for EIC-2 are Robert H. Crabtree of Yale University, who contributed 10 articles (Inorganic and Coordination Chemistry, and Transition Elements), Charles M. Lukehart of Vanderbilt University, who contributed one article (Organometallic Chemistry; Catalysis, Solid State Chemistry, Materials and Nanomaterials), and Robert A. Scott of the University of Georgia (Bioinorganic Chemistry). David A. Atwood of the University of Kentucky, who contributed eight articles, has replaced Richard L. Wells of Duke University (Main Group Elements), King and Lukehart have replaced the late Jeremy K. Burdett of the University of Chicago (Physical and Theoretical Methods and Solid State), respectively. Many of the new topics for EIC-2 were from the area of Inorganic Materials. The team of editors reviewed the articles that had appeared in EIC-1 and in most cases invited authors to update their articles to reflect those developments during the decade since the appearance of EIC-1. Whenever the author of the original article in EIC-1 was unavailable for updating or when recent advances indicated new topics for which coverage was needed, new articles were commissioned. The authors, whose names, affiliations, and article titles are listed in Vol. 10, are all prominent authorities who were selected for their expertise in the subjects of their articles. In King’s words, “Our authors are among the most active research workers in the areas of the subject that they have reviewed and have well justified international reputations for their scholarship” (p viii), for example, Robert J. Brotherton (Boron: Inorganic Chemistry), George B. Kauffman (Coordination Chemistry: History), David L. Kepert (Coordination numbers and Geometries), 1996 Nobel chemistry laureate Sir Harold W. Kroto (Carbon: Fullerenes), Marc S. Robillard and Jan Reedijk, based on Stephen J. Lippard’s EIC-1 article (Platinum-Based Anticancer Drugs), Amitabha Mitra and David A. Atwood, based on Robert C. West’s EIC-1 article (Polysiloxanes and Polysilanes), Michael T. Pope (Polyoxometalates), Dennis H. Rouvray (Periodic Table: Historical Aspects), Gabor A. Somorjai (Surfaces), andJay R. Winkler (Long-range Electron Transfer in Biology). For ready reference EIC-2 is alphabetically arranged from “Ab Initio Calculations” to “Zwitterion,” with 285 signed main articles (with their contents clearly listed at the beginnings and with numbered sections, subsections, and sub-subsections) dealing with individual topics in a self-contained manner but with frequent reference to other articles; more than 860 short entries defining or explaining important concepts or providing valuable data; and more than 340 cross-reference entries to help to locate specific topics. In any article cross-reference to definition entries is indicated by italics, while cross-reference to other main articles is indicated by bold italics. In some cases a list of related main articles is given at the end of the article, followed by extensive, up-to-date literature references, some as late as 2004 and many to review articles and seminal papers to guide the reader to sources of more detailed information. A particular subject can be located either directly, by consulting the appropriate alphabetical place, or from the detailed (121 double-column pages) index in Vol. 10. In commissioning the main articles in EIC-2, they were grouped into eight areas, with some articles appearing in different areas: · General Principles (41 articles) reflect major advances in computational and theoretical inorganic chemistry and include articles on the electronic structures of clusters, main group compounds, and organometallic compounds as well as articles on molecular orbital theory, luminescence, photoelectron spectroscopy, and short-lived intermediates. Several general articles on physical and spectroscopic methods were deleted to generate space for expansion of coverage to new and rapidly developing areas. · Inorganic and Coordination Chemistry (57 articles) involves more sophisticated ligands, a wider set of applications, and computational and combinatorial methods. Increased sophistication in structural determination permits the study of more complicated coordination compounds without losing information at the molecular level. · Organometallic Chemistry (93 articles) features articles emphasizing historically significant and recent discoveries in the organometallic chemistry of the 27 transition metals comprising groups 3-11 of the periodic table and of the lanthanides and actinides alphabetically arranged under each metal or grouping of related metals. Several topical articles summarize advances in the synthesis, structure, bonding, and chemical reactivity of important classes of organometallic complexes, including applications to catalysis, organic synthesis, and materials chemistry. · Main Group Elements (122 articles) features mostly updates of articles from EIC-1, which have been rewritten to include references since 1994, and the sections have been changed to include new developments since that time, resulting in a coverage of every main group element that can be used both for introducing each element as a new subject in teaching and as a resource for understanding the latest research. · Transition Metals (152 articles) have been incorporated into organic, physical, and biophysical chemistry and are being increasingly used in allied fields within solid-state physics and biochemistry. · Bioinorganic Chemistry (56 articles) contains articles that are either new or extensively updated to reflect major advances such as new technologies in structural biology, molecular biology, biological imaging, and other areas in combination with the genomic revolution and the bioinformatics tools that have accompanied it. Many articles provide representations of crystallographically determined molecular structures that aid in understanding the chemistry underlying the biological function. Metals in medicine, including heavy metal toxicity, roles in disease progression, inorganic therapeutics, and inorganic imaging agents are discussed in separate articles. · Solid-State, Materials and Nanomaterials (49 articles) includes updated articles on the inorganic chemistry of important classes of inorganic solids, such as common binary or ternary elemental compositions, as well as updated reviews of selected properties, electronic structures of inorganic solids, and common synthesis strategies for preparing inorganic solid materials. New articles on the synthesis and properties of nanomaterials obtained by self-assembly processes are also provided. · Catalysis (30 articles) includes articles on metal-mediated reactions applicable to organic synthesis; stoichiometric or catalytic nucleophilic addition to metal carbene, alkene, allyl, arene, diene, or dienyl complexes effecting C-C or C-(nucleophile) bond formation with controlled regio- or stereoselectivity; asymmetric organometallic catalysis, including chiral poisoning strategies and combinatorial methods of catalyst generation; methods for immobilizing organometallic complexes on insoluble phases; and other new developments. The periodic table (with the group numbers 1 to 18 as recommended by the International Union of Pure and Applied Chemistry (IUPAC) rather than the older Mendeleev I-VIII numbers and with the symbols for elements 104-111 being those endorsed by the Nomenclature Committee of the American Chemical Society) appears on the inside front cover of each volume, while four columns of Common Abbreviations appear on the back endpapers. Each volume contains the Preface; Introduction and Synopses (pp ix-xix), and table of Contents, which lists alphabetically with page numbers all the main definition articles in the entire set (pp ix-xxxii). The encyclopedia is extensively illustrated with photographs, concise tables, line drawings, diagrams, figures, equations, reaction schemes, and computer-drawn structural formulas. For the first time, illustrations in color are included. Volume 10 contains a double-column list of Abbreviations and Acronyms (pp 6077-6087). The emphasis on recent developments ensures that the EIC-2 will remain topical for many years. An electronic version will be published on Wiley InterScience in spring, 2006 and will be a vital resource for inorganic research and teaching. CrossRef will permit direct linking to the original literature. Regular updates will ensure that EIC-2 will include cutting-edge developments. One can subscribe to the online version either by a one-time fee for continuing access or annually for one calendar year. In King’s words, We believe that the Encyclopedia of Inorganic Chemistry, as well as providing a lasting source of information, will provide the stimulus for many new discoveries since we do not believe it possible to read any of the major articles without generating ideas for new research (p viii). I agree fully with his evaluation. This excellent, up-to-date, comprehensive, easy-to-use, definitive, and modestly priced reference work provides more information than is available in single-volume works without being so large as to be beyond the reach of all but a few well-endowed academic and industrial libraries or affluent individuals. It should be of interest and use not only to inorganic chemists but also to organic, physical, and analytical chemists; biochemists; chemical engineers; materials, earth, and environmental scientists; physicists; biologists; and anyone seeking information on and ideas for new research in one of the most active fields of chemistry today. # Hardcover: 6696 pages # Publisher: Wiley; 102 edition (November 4, 2005) # Language: English # ISBN-10: 0470860782 # ISBN-13: 978-0470860786
download Encyclopedia of Inorganic Chemistry 1
download Encyclopedia of Inorganic chemisrty 2
"This work is a revision of the 1994 edition, the only work of its kind…highly recommended।" (CHOICE, May 2006) "Like its predecessor, this second edition assumes a crucial place on the chemistry reference shelf: it is more in-depth than a single-volume dictionary...more accessible than treatises...and more focused than a general chemistry encyclopedia…" (Library Journal, February 2006) "This excellent, up-to-date, comprehensive, easy-to-use, definitive, and modestly priced reference work provides more information than is available in single-volume works…" (The Chemical Educator, January/February 2006) "...excellent, up-to-date, easy-to-use, definitive, and modestly priced reference work..." (Chemical Educator, Vol 11, 2006) “There is immense knowledge embodied in these volumes।” (Chemistry & Industry, June 2006)
Product Description
The ultimate resource on inorganic chemistry – new and completely revised, 10 years after publication of the First Edition The first edition of the Encyclopedia of Inorganic Chemistry treated the elements of the periodic system in alphabetical order, with multiple entries for key elements. The articles from the First Edition were written more than 10 years ago and all areas of inorganic chemistry have seen such a vigorous development that it was necessary to update most articles and to add a considerable number of new articles. The result of this major work is the proud Encylopedia of Inorganic Chemistry Second Edition (EIC-2). * New – now includes colour * 30 0rowth on previous edition – now 6,640 pages, published in 10 volumes EIC-2 continues to present articles in alphabetical order, but the content has been slightly reorganized to the following subject areas: Main Group Elements; Transition Metals and Coordination Chemistry; Organometallic Chemistry; Bioinorganic Chemistry; Solid State, Materials, Nanomaterials and Catalysis; and General Inorganic Chemistry, Theoretical and Computational Methods. Media Review During the first four decades of the 20th century inorganic chemistry languished in the doldrums until the post-World War II period ushered in the resurgence in the field that the late Sir Ronald S. Nyholm called the “renaissance of inorganic chemistry” [1]. Inorganic chemistry encompasses an amazing variety of structurally diverse substances—molecular, ionic, coordination, organometallic, and nonmolecular compounds of the roughly hundred elements now known (with the exception of those compounds of carbon that are the province of organic chemistry) as well as special materials such as metallobiomolecules, semiconductors, superconductors, ceramics, and minerals. Their great structural diversity also makes them extremely important as fine chemicals, catalysts, industrial feedstocks, and advanced materials. Inorganic chemistry also plays a significant role in life processes because of the action of metalloenzymes and the importance of metals in protein and nucleic acid structure. We have long had available multi-volume treatises on the elements and their compounds. These include Gmelins Handbuch der anorganischen Chemie [2], J. Newton Friend's Textbook of Inorganic Chemistry [3], Joseph William Mellor's Comprehensive Treatise on Inorganic and Theoretical Chemistry [4], Paul Pascal's Nouveau Traité de chimie minérale [5], and Nevil Vincent Sidgwick's The Chemical Elements and Their Compounds [6]. More recently, modern comprehensive monographs on specialized aspects of inorganic chemistry have been published. These include Sir Geoffrey Wilkinson, Robert D. Gillard, and Jon A. McCleverty's 7-volume Comprehensive Coordination Chemistry [7], Jon A. McCleverty and T. J. Myers’s 10-volume Comprehensive Coordination Chemistry II [8], Sir Geoffrey Wilkinson, F. Gordon A. Stone, and Edward W. Abel's 9-volume Comprehensive Organometallic Chemistry [9], and Edward W. Abel, F. Gordon A. Stone, and Sir Geoffrey Wilkinson's 14-volume Comprehensive Organometallic Chemistry II [10]. Perhaps the multi-volume set that came closest to the volume under review here is M. Cannon Sneed, J. Lewis Maynard, and Robert C. Brasted's projected 11-volume Comprehensive Inorganic Chemistry [11], but only eight volumes were published, and it was more of a textbook by a limited number (15) of authors than a true encyclopedia. However, despite the increased activity in the field during the past half-century, inorganic chemistry lacked a modern comprehensive encyclopedia. Thus, when the first edition of the Encyclopedia of Inorganic Chemistry (EIC-1) [12] appeared in 1994, it filled a real gap in the literature. During the decade since the publication of EIC-1 such significant, exciting progress in many areas of inorganic chemistry has taken place that a new edition (EIC-2) became necessary and timely. Such areas of development include metalloenzymes, nanostructures, chemical structure and bonding, and computational methods based on density functional theory. The encyclopedia has grown from eight to ten volumes, an increase of more than 30 percent (6333 vs. 4819 pp). Once again, R. Bruce King, who served as Editor-in-Chief of the first edition, has reprised this role in EIC-2. He has also served as Editor for General Principles, Theoretical and Computational Methods. In addition, he has contributed articles on Polyhedra, Quasicrystals, and Symmetry Point Groups. King received his B.A. degree from Oberlin College in 1957 and was an NSF Predoctoral Fellow with F. Gordon A. Stone at Harvard University from which he received his Ph.D. degree in 1961. After a year at Du Pont and 4-1/2 years at the Mellon Institute, he joined the faculty of the University of Georgia, where he has been Regents’ Professor of Chemistry since 1973. His American Chemical Society awards include those in Pure Chemistry (1971) and Inorganic Chemistry (1991). His research interests range from synthetic organometallic and organophosphorus chemistry to applications to inorganic chemistry of topology and graph theory and nuclear waste treatment. Together with an Editorial Board of four prominent American chemists and an International Advisory Board of 12 chemists from ten countries, including 1987 Nobel chemistry laureate Jean-Marie Lehn of the Université Strasbourg, King has assembled an outstanding group of 391 contributors from 24 countries to produce what should be a definitive reference source for some time to come and “a work that correctly portrays the relevance and achievements of modern inorganic chemistry” (p viii). Editors from EIC-1 who have served as Subject Editors for EIC-2 are Robert H. Crabtree of Yale University, who contributed 10 articles (Inorganic and Coordination Chemistry, and Transition Elements), Charles M. Lukehart of Vanderbilt University, who contributed one article (Organometallic Chemistry; Catalysis, Solid State Chemistry, Materials and Nanomaterials), and Robert A. Scott of the University of Georgia (Bioinorganic Chemistry). David A. Atwood of the University of Kentucky, who contributed eight articles, has replaced Richard L. Wells of Duke University (Main Group Elements), King and Lukehart have replaced the late Jeremy K. Burdett of the University of Chicago (Physical and Theoretical Methods and Solid State), respectively. Many of the new topics for EIC-2 were from the area of Inorganic Materials. The team of editors reviewed the articles that had appeared in EIC-1 and in most cases invited authors to update their articles to reflect those developments during the decade since the appearance of EIC-1. Whenever the author of the original article in EIC-1 was unavailable for updating or when recent advances indicated new topics for which coverage was needed, new articles were commissioned. The authors, whose names, affiliations, and article titles are listed in Vol. 10, are all prominent authorities who were selected for their expertise in the subjects of their articles. In King’s words, “Our authors are among the most active research workers in the areas of the subject that they have reviewed and have well justified international reputations for their scholarship” (p viii), for example, Robert J. Brotherton (Boron: Inorganic Chemistry), George B. Kauffman (Coordination Chemistry: History), David L. Kepert (Coordination numbers and Geometries), 1996 Nobel chemistry laureate Sir Harold W. Kroto (Carbon: Fullerenes), Marc S. Robillard and Jan Reedijk, based on Stephen J. Lippard’s EIC-1 article (Platinum-Based Anticancer Drugs), Amitabha Mitra and David A. Atwood, based on Robert C. West’s EIC-1 article (Polysiloxanes and Polysilanes), Michael T. Pope (Polyoxometalates), Dennis H. Rouvray (Periodic Table: Historical Aspects), Gabor A. Somorjai (Surfaces), andJay R. Winkler (Long-range Electron Transfer in Biology). For ready reference EIC-2 is alphabetically arranged from “Ab Initio Calculations” to “Zwitterion,” with 285 signed main articles (with their contents clearly listed at the beginnings and with numbered sections, subsections, and sub-subsections) dealing with individual topics in a self-contained manner but with frequent reference to other articles; more than 860 short entries defining or explaining important concepts or providing valuable data; and more than 340 cross-reference entries to help to locate specific topics. In any article cross-reference to definition entries is indicated by italics, while cross-reference to other main articles is indicated by bold italics. In some cases a list of related main articles is given at the end of the article, followed by extensive, up-to-date literature references, some as late as 2004 and many to review articles and seminal papers to guide the reader to sources of more detailed information. A particular subject can be located either directly, by consulting the appropriate alphabetical place, or from the detailed (121 double-column pages) index in Vol. 10. In commissioning the main articles in EIC-2, they were grouped into eight areas, with some articles appearing in different areas: · General Principles (41 articles) reflect major advances in computational and theoretical inorganic chemistry and include articles on the electronic structures of clusters, main group compounds, and organometallic compounds as well as articles on molecular orbital theory, luminescence, photoelectron spectroscopy, and short-lived intermediates. Several general articles on physical and spectroscopic methods were deleted to generate space for expansion of coverage to new and rapidly developing areas. · Inorganic and Coordination Chemistry (57 articles) involves more sophisticated ligands, a wider set of applications, and computational and combinatorial methods. Increased sophistication in structural determination permits the study of more complicated coordination compounds without losing information at the molecular level. · Organometallic Chemistry (93 articles) features articles emphasizing historically significant and recent discoveries in the organometallic chemistry of the 27 transition metals comprising groups 3-11 of the periodic table and of the lanthanides and actinides alphabetically arranged under each metal or grouping of related metals. Several topical articles summarize advances in the synthesis, structure, bonding, and chemical reactivity of important classes of organometallic complexes, including applications to catalysis, organic synthesis, and materials chemistry. · Main Group Elements (122 articles) features mostly updates of articles from EIC-1, which have been rewritten to include references since 1994, and the sections have been changed to include new developments since that time, resulting in a coverage of every main group element that can be used both for introducing each element as a new subject in teaching and as a resource for understanding the latest research. · Transition Metals (152 articles) have been incorporated into organic, physical, and biophysical chemistry and are being increasingly used in allied fields within solid-state physics and biochemistry. · Bioinorganic Chemistry (56 articles) contains articles that are either new or extensively updated to reflect major advances such as new technologies in structural biology, molecular biology, biological imaging, and other areas in combination with the genomic revolution and the bioinformatics tools that have accompanied it. Many articles provide representations of crystallographically determined molecular structures that aid in understanding the chemistry underlying the biological function. Metals in medicine, including heavy metal toxicity, roles in disease progression, inorganic therapeutics, and inorganic imaging agents are discussed in separate articles. · Solid-State, Materials and Nanomaterials (49 articles) includes updated articles on the inorganic chemistry of important classes of inorganic solids, such as common binary or ternary elemental compositions, as well as updated reviews of selected properties, electronic structures of inorganic solids, and common synthesis strategies for preparing inorganic solid materials. New articles on the synthesis and properties of nanomaterials obtained by self-assembly processes are also provided. · Catalysis (30 articles) includes articles on metal-mediated reactions applicable to organic synthesis; stoichiometric or catalytic nucleophilic addition to metal carbene, alkene, allyl, arene, diene, or dienyl complexes effecting C-C or C-(nucleophile) bond formation with controlled regio- or stereoselectivity; asymmetric organometallic catalysis, including chiral poisoning strategies and combinatorial methods of catalyst generation; methods for immobilizing organometallic complexes on insoluble phases; and other new developments. The periodic table (with the group numbers 1 to 18 as recommended by the International Union of Pure and Applied Chemistry (IUPAC) rather than the older Mendeleev I-VIII numbers and with the symbols for elements 104-111 being those endorsed by the Nomenclature Committee of the American Chemical Society) appears on the inside front cover of each volume, while four columns of Common Abbreviations appear on the back endpapers. Each volume contains the Preface; Introduction and Synopses (pp ix-xix), and table of Contents, which lists alphabetically with page numbers all the main definition articles in the entire set (pp ix-xxxii). The encyclopedia is extensively illustrated with photographs, concise tables, line drawings, diagrams, figures, equations, reaction schemes, and computer-drawn structural formulas. For the first time, illustrations in color are included. Volume 10 contains a double-column list of Abbreviations and Acronyms (pp 6077-6087). The emphasis on recent developments ensures that the EIC-2 will remain topical for many years. An electronic version will be published on Wiley InterScience in spring, 2006 and will be a vital resource for inorganic research and teaching. CrossRef will permit direct linking to the original literature. Regular updates will ensure that EIC-2 will include cutting-edge developments. One can subscribe to the online version either by a one-time fee for continuing access or annually for one calendar year. In King’s words, We believe that the Encyclopedia of Inorganic Chemistry, as well as providing a lasting source of information, will provide the stimulus for many new discoveries since we do not believe it possible to read any of the major articles without generating ideas for new research (p viii). I agree fully with his evaluation. This excellent, up-to-date, comprehensive, easy-to-use, definitive, and modestly priced reference work provides more information than is available in single-volume works without being so large as to be beyond the reach of all but a few well-endowed academic and industrial libraries or affluent individuals. It should be of interest and use not only to inorganic chemists but also to organic, physical, and analytical chemists; biochemists; chemical engineers; materials, earth, and environmental scientists; physicists; biologists; and anyone seeking information on and ideas for new research in one of the most active fields of chemistry today. # Hardcover: 6696 pages # Publisher: Wiley; 102 edition (November 4, 2005) # Language: English # ISBN-10: 0470860782 # ISBN-13: 978-0470860786
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