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Silicon and Silicones
An Overview for the General Reader The fact that silicone rubber boots made those footprints on the moon, and that other silicone polymers made possible the construc tion and functioning of space suits and space vehicles, has led to the general belief that silicones are very modem materials conjured up to meet the needs of space travel. Actually, though, silicone chemis try has deep roots in human history, dating from the dawn of the race and extending through all of geology, mineralogy, and the ancient ceramic arts. This little book seeks to put the development of silicone materials in perspective as part of the fascinating involvement of the element silicon in our daily lives, from the stu...
An Introduction Chemistry of the Silicones
The organic compounds of silicon, which have been the subject of many scholarly researches during the past 80 years, at last show promise of emerging from the laboratory and finding a place in industry. An understanding of the behaviour of organosilicon materials is necessary to their intelligent use and, inasmuch as the chemistry of these substances ordinarily is not treated in our textbooks, it is possible that a compact yet comprehensive survey of our present knowledge in this field would be of service to chemists, engineers, and industrial designers. This volume has just such a purpose. The first few chapters review the silanes and their derivatives in some detail, in order to provide an understanding of the fundamental chemistry of the nonsilicate compounds of silicon. The later chapters emphasize the silicone polymers which have achieved commercial importance and deal with the methods for their preparation, their chemical and physical properties, and their possible uses. The processes available for large-scale production are treated separately, and a review of methods of analysis is included.
The Holland Sisters
It is said that behind every successful man there stands a devoted and capable woman. The three famous chemists Perkin, Kipping and their collaborator Lapworth married three sisters: Mina, Lily, and Kathleen Holland. The three Holland sisters kept their husbands in close and very productive collaboration throughout their lives, thereby greatly increasing their scientific output. The life and work of the men is thoroughly documented, but little is known about their wives. Professor Eugene G. Rochow, a world-renowned scientist, wrote this biographical historical novel with the help of a grandson, Dr. Brian Kipping. A factually-based novel written in an imaginative style that provides an absorbing and intriguing insight into the life and work of a productive scientific family.
Unlikely Victory
Many companies that stray too far from their core business fail. So how is it that General Electric, a major electrical manufacturing company, ended up as one of the top U.S. chemical producers—with 1998 sales of $6.6 billion? In Unlikely Victory, Jerome T. Coe, a retired 40-year career employee with General Electric, who spent more than 20 years as a manager of the company’s chemical businesses, suggests that it was a combination of necessity, forward-thinking of the engineers, and managers wise enough to give them breathing room. “Much of what they did (then) was counter to the prevailing GE culture,” he writes. “Today, it has become the corporate culture.” The book tells the w...
Landmarks in Organo-Transition Metal Chemistry
Since the discovery of ferrocene and the sandwich-type complexes, the development of organometallic chemistry took its course like an avalanche and became one of the scientific success stories of the second half of the twentieth century. Based on this development, the traditional boundaries between inorganic and organic chemistry gradually disappeared and a rebirth of the nowadays highly important field of homogeneous catalysis occurred. It is fair to say that despite the fact that the key discovery, which sparked it all off, was made more than 50 years ago, organometallic chemistry remains a young and lively discipline.
Organosilicon Chemistry I
Do you need to know what's new in organosilicon chemistry? This book provides in-depth coverage of the latest developments in this interdisciplinary and fast-evolving field: - selectivity and reactivity of organosilicon compounds - new synthetic applications - structure and bonding - applications in materials and polymer science Written by leading experts, this book is a well-referenced and critical overview of modern silicon chemistry. 'I recommend this book to the student and the practitioner in this new, very different, and very exciting field'. Eugene G. Rochow /Harvard University
Up from Generality
In this brief, renowned inorganic chemist Jay Labinger tracks the development of his field from a forgotten specialism to the establishment of an independent, intellectually viable discipline. Inorganic chemistry, with a negation in its very name, was long regarded as that which was left behind when organic and physical chemistry emerged as specialist fields in the 19th century. Only by the middle of the 20th century had it begun to gain its current stature of equality to that of the other main branches of chemistry. The author discusses the evidence for this transition, both quantitative and anecdotal and includes consideration of the roles of local and personal factors, with particular focus on Caltech as an illustrative example. This brief is of interest both to historians of science and inorganic chemists who would like to find out how their field began.
Inorganic Polymers
I. Introduction 1.1. What Is a Polymer1.2. How Polymers Are Depicted1.3. Reasons for Interest in Organic Polymers1.4. Types of Inorganic Polymers1.5. Special Characteristics of PolymersII. Characterization of Inorganic Polymers 2.1. Molecular Weights2.2. Molecular Weight Distribution2.3. Other Structural Features2.4. Chain Statistics2.5. Solubility Considerations2.6. Crystallinity2.7. Transitions2.8. Spectroscopy2.9. Mechanical PropertiesIII. Polyphosphazenes 3.1. Introduction3.2. History3.3. Alternative Synthesis Routes to Linear Polymers3.4. Surface Reactions of Polyphosphazenes3.5. Hybrid S.
