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A very large number of organo derivatives is formed by the Group IV ele ments silicon, germanium, tin, and lead. In comparing the general properties of these elements, Table 1. 1 shows that the first ionization energies decrease (though not in a regular way) with increase in size and atomic number, con sistent with the general increase in metallic character of the elements. Electro negativity values (which have been the subject of considerable controversy) show no clear trend. Although purely inorganic compounds of tin(n) and leaden) are well known, almost all organo Group IV derivatives show an oxidation state of IV. Bonds to carbon become weaker on passing from silicon to lead, as do the element-element bonds themselves. With any particular element M (M = Si, Ge, Sn, or Pb), there is a small decrease in bond energy in the order: M-Ph > M - Me > M - Et. Although accurate data for organo derivatives are lacking, strengths of bonds to other elements probably decrease in the order: M-F> M-O > M-CI > M-H ~ M-N ~ M-S ~ M-Br > M-I, while for a particular element X, the order is: Si-X > Ge-X > Sn-X > Pb-X. It is therefore understandable that reactions leading to Si-F, Si-O, or Si-CI bonds are especially favoured in a thermodynamic sense.
Nontransition-Metal Compounds is the second volume in the series Organometallic Syntheses and presents various procedures for the nontransition-metal compounds. Topics also covered in this volume include sensitive liquids, sample transfer, and inert atmosphere provision. The text is divided into two major parts. Part I is mostly procedural as it offers directions and suggestions in different processes such as (a) establishment of an inert atmosphere and solvent medium; (b) evaluation of purity, mode of mixing, and solvent type; and (c) isolation and purification of reaction products. Organometallic products, particularly its physical and chemical characteristics, are also tackled. In Part II, around 85 nontransition-metal organometallic compounds and the reliable procedures used for their synthesis are presented. This particular volume will be of help to students both in the fields of chemistry and biology.
The Book Is A Revised Edition Of A Lucid And Stimulating Introductory Account Of Organometallic Chemistry, An Exciting And Rapidly Developing Interdisciplinary Branch Of Science.A Characteristic Feature Of This Book Is The Presentation Of An Integrated (Covering Different Facets Usually Dealt With Either In Organic Or/And Inorganic Texts) View Of The Rapidly Developing Field Of Organometallic Chemistry. Attempts Have Been Made To Choose The Latest Examples To Illustrate The Fundamental Properties As Well As The Synthetic Procedures Of Organometallic Chemistry. Other Features Include: (A) An Interesting Brief Historical Background Of The Subject Including Some Quotations From Relevant Nobel Lecture Accounts Of Epoch Making Advances By The Discoverers Themselves, (B) The Adoption As Far As Possible Of The Iupac Rules Of Nomenclature, (C) A Brief Account Of The Rapidly Emerging Organometallic Chemistry Of The F-Elements, And (D) Inclusion Of Study Questions At The End Of Each Chapter.During The Revision Of The Book, The Latest Examples Have Replaced The Older Ones Wherever Feasible. The Book Would Be Extremely Useful As A Basic Text For B.Sc. (Hons.) And M.Sc. Chemistry Students.
In the course of his distinguished career spanning about half a century, George A Olah, winner of the 1994 Nobel Prize for Chemistry, has been exceedingly prolific and has published more than 1000 scientific papers and 15 books and holds more than 100 patents. This invaluable volume contains about 250 papers selected for their breadth and current importance.
Advances in Organometallic Chemistry
Aliphatic Compounds
The second edition of Organometallic Compounds (1960) was used not only by specialists but also as an undergraduate textbook. The third edition, recently published in two volumes, is about three times the length of the second and contains considerably more factual material than is appropriate for a student textbook. Therefore we believe that a shorter treatment would be welcome. In planning this book the authors have emphasized matters more of prin ciple than of detail, and have included in the first two chapters some general discussion of the properties and syntheses of organometallic compounds that is not to be found in the larger work. Some aspects of the organic chemistry of arsenic, and of silicon with particular reference to silicone polymers, are also included. Most university teachers of chemistry are becoming seriously concerned about the relentless increase in the amount and complexity of the material that is squeezed into undergraduate chemistry courses. With this in mind the authors have tried to cut detail to a minimum, but readers will find that the relative amount presented varies considerably between the various topics discussed. In general the treatment is more extensive than usual only if either or both of these conditions are met: (1), the subject has significant bearing on other major branches of chemistry including im portant industrial processes; (2), the topic is commonly misunderstood or found to be confusing.