10-Volume Set – Hardbound: Elsevier: Amsterdam. 2003. - 9500
pages
Volume 1: Fundamentals: Ligands, Complexes, Synthesis, Purification, and Structure - Lever A.B.P. (ed. )
Volume 2: Fundamentals: Physical Methods, Theoretical Analysis, and Case Studies - Lever A.B.P. (ed. )
Volume 3: Coordination Chemistry of the s, p, and f Metals – G.F.R. Parkin (ed. )
Volume 4: Transition Metal Groups 3–6 – A.G. Wedd (ed. )
Volume 5: Transition Metal Groups 7 and 8 – E.C. Constable, J.R. Dilworth (ed. )
Volume 6: Transition Metal Groups 9–12 – D.E. Fenton (ed. )
Volume 7: From the Molecular to the Nanoscale: Synthesis, Structure, and Properties – M. Fujita, A. Powell, C. Creutz (ed. )
Volume 8: Bio-coordination Chemistry – L. Que, Jr. , B. Tolman (ed. )
Volume 9: Applications of Coordination Chemistry – M.D. Ward (ed. )
Volume 10: Cumulative Subject Index
In the 20 years since 1982, there has been, of course, an avalanche of activity in the coordination
chemistry of the early transition metals, Groups 3–
6. This has been driven by further fundamental study but also by strategic work in reactivity and catalysis (including biological chemistry) and in solid state and thin film technologies.
Chapters 1–8 cover mononuclear systems, together with polynuclear species in which intermetallic bonding is not important or which have particular connections to the mononuclear systems. Highlights include the new area of metallofullerene chemistry (Chapter 1), intensive development of the aqueous chemistry of vanadium (Chapter 4) and the spectacular performance of the Group 6 elements chromium, molybdenum, and tungsten, driven by technological and biological aspects. Group 6 chemistry accounts for nearly half of the present volume, when the polynuclear systems of Chapters 9–12 are included.
Chapter 9 covers binuclear metal–metal bonded systems and acts as a link between the mononuclear species and the cluster chemistries of Chapters 10–
12. The rapid evolution of the latter aspects is another highlight of development of the chemistry of Groups 4–6.
Volume 1: Fundamentals: Ligands, Complexes, Synthesis, Purification, and Structure - Lever A.B.P. (ed. )
Volume 2: Fundamentals: Physical Methods, Theoretical Analysis, and Case Studies - Lever A.B.P. (ed. )
Volume 3: Coordination Chemistry of the s, p, and f Metals – G.F.R. Parkin (ed. )
Volume 4: Transition Metal Groups 3–6 – A.G. Wedd (ed. )
Volume 5: Transition Metal Groups 7 and 8 – E.C. Constable, J.R. Dilworth (ed. )
Volume 6: Transition Metal Groups 9–12 – D.E. Fenton (ed. )
Volume 7: From the Molecular to the Nanoscale: Synthesis, Structure, and Properties – M. Fujita, A. Powell, C. Creutz (ed. )
Volume 8: Bio-coordination Chemistry – L. Que, Jr. , B. Tolman (ed. )
Volume 9: Applications of Coordination Chemistry – M.D. Ward (ed. )
Volume 10: Cumulative Subject Index
In the 20 years since 1982, there has been, of course, an avalanche of activity in the coordination
chemistry of the early transition metals, Groups 3–
6. This has been driven by further fundamental study but also by strategic work in reactivity and catalysis (including biological chemistry) and in solid state and thin film technologies.
Chapters 1–8 cover mononuclear systems, together with polynuclear species in which intermetallic bonding is not important or which have particular connections to the mononuclear systems. Highlights include the new area of metallofullerene chemistry (Chapter 1), intensive development of the aqueous chemistry of vanadium (Chapter 4) and the spectacular performance of the Group 6 elements chromium, molybdenum, and tungsten, driven by technological and biological aspects. Group 6 chemistry accounts for nearly half of the present volume, when the polynuclear systems of Chapters 9–12 are included.
Chapter 9 covers binuclear metal–metal bonded systems and acts as a link between the mononuclear species and the cluster chemistries of Chapters 10–
12. The rapid evolution of the latter aspects is another highlight of development of the chemistry of Groups 4–6.