Inorganic Chemistry in Nonaqueous Solvents
Author: Arthur Kenneth Holliday
Publisher: Pergamon
Published: 1965
Total Pages: 172
ISBN-13:
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Electrochemistry in Nonaqueous Solutions
Author: Kosuke Izutsu
Publisher: John Wiley & Sons
Published: 2009-09-22
Total Pages: 432
ISBN-13: 9783527629169
DOWNLOAD EBOOKAn excellent resource for all graduate students and researchers using electrochemical techniques. After introducing the reader to the fundamentals, the book focuses on the latest developments in the techniques and applications in this field. This second edition contains new material on environmentally-friendly solvents, such as room-temperature ionic liquids.
Non-aqueous Solvent Systems
Author: Thomas Cudworth Waddington
Publisher:
Published: 1965
Total Pages: 594
ISBN-13:
DOWNLOAD EBOOKPhysical Chemistry of Organic Solvent Systems
Author: A Covington
Publisher:
Published: 1973-11-01
Total Pages: 836
ISBN-13: 9781468419603
DOWNLOAD EBOOKCoordination Chemistry in Non-Aqueous Solutions
Author: Victor Gutmann
Publisher: Springer Science & Business Media
Published: 2012-12-06
Total Pages: 181
ISBN-13: 3709181941
DOWNLOAD EBOOKConsiderable attention has been focussed on non-aqueous chemistry in the last decade and this situation has arisen no doubt from a realization of the vast application of this branch of chemistry. Within this field much energetic work has been channelled into the determination of the coordination chemistry of tran sition metals in these solvent 8ystems. Elaborate experimental techniques have been developed to discover, in particular, the magnetic and spectral properties of complex compounds, and the theoretical background of such systems has been expanded to corroborate, as far as possible, the experimental results. This text has, however, a different bias from many books currently available on this branch of chemistry, and is designed to be a survey of known facts on many of the non-aqueous solvents currently in use mainly in the field of halogen chemistry, together with a discussion of these facts in the light of accepted principles. As such, it is hoped to close a gap in the literature of which many workers and advanced students in this field will be aware. The treatment is meant to be selective rather than completely comprehensive and must unevitably reflect some of the special interests of the author.
The Chemistry of Nonaqueous Solvents V4
Author: J J Lagowski
Publisher: Elsevier
Published: 2012-12-02
Total Pages: 326
ISBN-13: 0323139388
DOWNLOAD EBOOKThe Chemistry of Nonaqueous Solvents, Volume IV: Solution Phenomena and Aprotic Solvents focuses on the chemistry of nonaqueous solvents, with emphasis on solution phenomena and aprotic solvents such as tetramethylurea, inorganic acid chlorides, cyclic carbonates, and sulfolane. This book is organized into seven chapters and begins with an overview of the theory of electrical conductivity and elementary experimental considerations, along with some of the interesting research on nonaqueous solvents. It then turns to a discussion on hydrogen bonding phenomena in nonaqueous systems as probed by four spectroscopic techniques; the different methods used in studying redox systems in nonaqueous solvents such as potentiometry and steady state diffusion methods; and the use of tetramethylurea as a nonaqueous medium for chemical reactions and chemical investigations. The reader is also introduced to inorganic acid chlorides of high dielectric constant, with special reference to antimony trichloride, and preparation methods for cyclic carbonates including vinylene carbonate, ethylene carbonate, propylene carbonate, and butylene carbonate. The book concludes with a chapter on sulfolane, focusing on its preparation and purification, physical properties, and toxicology. This book will be of interest to chemists who want to know more about nonaqueous solvents.
Ph Measurements
Author: C Westcott
Publisher: Elsevier
Published: 2012-12-02
Total Pages: 185
ISBN-13: 0323160603
DOWNLOAD EBOOKpH Measurements is a seven-chapter simplified text on obtaining a high degree of accuracy in practical pH measurement. The introductory chapter of this book relates the principles of pH measurements to the actual measurement. This chapter specifically tackles the factors involved in the measurement and what magnitude of effect does each factor have on the measurement. These topics are followed by discussions on the components of pH equipment and technique, including the electrodes and buffers. A chapter considers the general approach of pH measurements and illustrates with examples of some common difficult samples. The concluding chapter shows the isolation and correction a pH equipment malfunction. pH equipment operators and users will find this book rewarding.
Chemistry in Non-Aqueous Solvents
Author: B. Trémillon
Publisher: Springer Science & Business Media
Published: 2012-12-06
Total Pages: 291
ISBN-13: 9401021236
DOWNLOAD EBOOKArising no doubt from its pre-eminence as a natural liquid, water has always been considered by chemists as the original solvent in which very varied chemical reactions can take place, both for preparational and for analytical purposes. This explains the very long-standing interest shown in the study of aqueous solutions. In this con nection, it must be stressed that the theory of Arrhenius and Ostwald (1887-1894) on electrolytic dissociation, was originally devised solely for solutions in water and that the first true concept of acidity resulting from this is linked to the use of this solvent. The more recent development of numerous physico-chemical measurement methods has made possible an increase of knowledge in this area up to an extremely advanced degree of systematization. Thus today we have available both a very large amount of experimental data, together with very refined methods of deduction and of quantitative treatment of chemical reactions in solution which enable us to make the fullest use of this data. Nevertheless, . it appears quite evident at present that there are numerous chemical processes which cannot take place in water, and that its use as a solvent imposes 2 INTRODUCTION limitations. In order to overcome these limitations, it was natural that interest should be attracted to solvents other than water and that the new possibilities thus opened up should be explored.
Enzymes in Nonaqueous Solvents
Author: Evgeny N. Vulfson
Publisher: Springer Science & Business Media
Published: 2008-02-05
Total Pages: 677
ISBN-13: 1592591124
DOWNLOAD EBOOKEnzymatic catalysis has gained considerable attention in recent years as an efficient tool in the preparation of natural products, pharmaceuticals, fine chemicals, and food ingredients. The high selectivity and mild reaction con- tions associated with enzymatic transformations have made this approach an attractive alternative in the synthesis of complex bioactive compounds, which are often difficult to obtain by standard chemical routes. However, the maj- ity of organic compounds are not very soluble in water, which was traditi- ally perceived as the only suitable reaction medium for the application of biocatalysts. The realization that most enzymes can function perfectly well under nearly anhydrous conditions and, in addition, display a number of useful properties, e. g. , highly enhanced stability and different selectivity, has d- matically widened the scope of their application to the organic synthesis. Another great attraction of using organic solvents rather than water as a reaction solvent is the ability to perform synthetic transformations with re- tively inexpensive hydrolytic enzymes. It is worth reminding the reader that in vivo, the synthetic and hydrolytic pathways are catalyzed by different enzymes. However, elimination of water from the reaction mixture enables the “reversal” of hydrolytic enzymes and thus avoids the use of the expensive cofactors or activated substrates that are required for their synthetic count- parts.
Enzymes in Nonaqueous Solvents
Author: Evgeny N. Vulfson
Publisher: Humana
Published: 2010-11-19
Total Pages: 0
ISBN-13: 9781617372568
DOWNLOAD EBOOKEnzymatic catalysis has gained considerable attention in recent years as an efficient tool in the preparation of natural products, pharmaceuticals, fine chemicals, and food ingredients. The high selectivity and mild reaction con- tions associated with enzymatic transformations have made this approach an attractive alternative in the synthesis of complex bioactive compounds, which are often difficult to obtain by standard chemical routes. However, the maj- ity of organic compounds are not very soluble in water, which was traditi- ally perceived as the only suitable reaction medium for the application of biocatalysts. The realization that most enzymes can function perfectly well under nearly anhydrous conditions and, in addition, display a number of useful properties, e. g. , highly enhanced stability and different selectivity, has d- matically widened the scope of their application to the organic synthesis. Another great attraction of using organic solvents rather than water as a reaction solvent is the ability to perform synthetic transformations with re- tively inexpensive hydrolytic enzymes. It is worth reminding the reader that in vivo, the synthetic and hydrolytic pathways are catalyzed by different enzymes. However, elimination of water from the reaction mixture enables the “reversal” of hydrolytic enzymes and thus avoids the use of the expensive cofactors or activated substrates that are required for their synthetic count- parts.
