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From man's first exploration of natural materials and their transformations to today's materials science, chemistry has always been the central discipline that underpins both the physical and biological sciences, as well as technology. In this Very Short Introduction, William H Brock traces the unique appeal of this fundamental science throughout history. Covering alchemy, early-modern chemistry, pneumatic chemistry and Lavoisier's re-interpretation of chemical change, the rise of organic and physical chemistry, and the transforming power of synthesis, Brock explores the extraordinary and often puzzling transformations of natural and artificial materials, as well as the men and women who experimented, speculated, and explained matter and change. ABOUT THE SERIES: The Very Short Introductions series from Oxford University Press contains hundreds of titles in almost every subject area These pocket-sized books are the perfect way to get ahead in a new subject quickly Our expert authors combine facts, analysis, perspective, new ideas, and enthusiasm to make interesting and challenging topics highly readable.
The book 'A Textbook of Organic Chemistry' was first published 40 years ago. Over the years it has become students’ favourite because it explains the subject in the most student-friendly way and is revised regularly to keep itself updated with the latest in research. This edition presents the modern-day basic principles and concepts of the subject as per the CBCS of UGC guidelines. Special emphasis has been laid on the mechanism and electronic interpretation of reactions of the various classes of compounds. It provides a basic foundation of the subject so that based on these, students are able to extrapolate, predict and solve challenging problems. New in this Edition • A new chapter 'Energy in Biosystems' explores the fundamentals of biochemical reactions involved in storage as well as continuous usage of energy in biosystems. • Structural theories like VB and MO, hybridization and orbital pictures of resonance, and hyperconjugation. • Woodward-Fieser rules for calculating ?max, and Norrisch type I and II reactions of special photochemical C-C cleavage in the chapter on 'Electromagnetic Spectrum'. • Polanyi-Hammond postulates and Curtin-Hammett principle, along with several new mechanisms, e.g., Favorskii, Baeyer-Villiger, and Birch, in Chapter 5. • McMurry, Wittig, Stobbe, Darzen in Chapter 19. • Study of antibiotics, antacids and antihistamines in the chapter on 'Chemotherapy'. • Biodegradable and conducting plastics in the chapter on 'Synthetic Polymers and Plastics'. • Benefits of 'Green Chemistry'—the latest trend for sustainable chemistry as Appendix II.
The book explains the principles and fundamentals of Green Analytical Chemistry (GAC) and highlights the current developments and future potential of the analytical green chemistry-oriented applications of various solutions. The book consists of sixteen chapters, including the history and milestones of GAC; issues related to teaching of green analytical chemistry and greening the university laboratories; evaluation of impact of analytical activities on the environmental and human health, direct techniques of detection, identification and determination of trace constituents; new achievements in the field of extraction of trace analytes from samples characterized by complex composition of the matrix; “green” nature of the derivatization process in analytical chemistry; passive techniques of sampling of analytes; green sorption materials used in analytical procedures; new types of solvents in the field of analytical chemistry. In addition green chromatography and related techniques, fast tests for assessment of the wide spectrum of pollutants in the different types of the medium, remote monitoring of environmental pollutants, qualitative and comparative evaluation, quantitative assessment, and future trends and perspectives are discussed. This book appeals to a wide readership of the academic and industrial researchers. In addition, it can be used in the classroom for undergraduate and graduate Ph.D. students focusing on elaboration of new analytical procedures for organic and inorganic compounds determination in different kinds of samples characterized by complex matrices composition.Jacek Namieśnik was a Professor at the Department of Analytical Chemistry, Gdańsk University of Technology, Poland. Justyna Płotka-Wasylka is a teacher and researcher at the same department.
This book provides an historical overview of the recent developments in the history of diverse fields within chemistry. It follows on from Recent Developments in the History of Chemistry, a volume published in 1985. Covering chiefly the last 20 years, the primary aim of Chemical History: Reviews of the Recent Literature is to familiarise newcomers to the history of chemistry with some of the more important developments in the field. Starting with a general introduction and look at the early history of chemistry, subsequent chapters go on to investigate the traditional areas of chemistry (physical, organic, inorganic) alongside analytical chemistry, physical organic chemistry, medical chemistry and biochemistry, and instruments and apparatus. Topics such as industrial chemistry and chemistry in national contexts, whilst not featuring as separate chapters, are woven throughout the content. Each chapter is written by experts and is extensively referenced to the international chemical literature. Chemical History: Reviews of the Recent Literature is also ideal for chemists who wish to become familiar with historical aspects of their work. In addition, it will appeal to a wider audience interested in the history of chemistry, as it draws together historical materials that are widely scattered throughout the chemical literature.
Heinrich Caro (1834-1910) was the inventor of new chemical processes that in the two decades commencing in 1869 enabled BASF of Ludwigshafen, Germany, to take first place among manufacturers of synthetic dyestuffs. The cornerstones of Caro's success were his early training as calico (cotton) printer in Germany, and his employment at a chemical firm in Manchester, England. Caro was a creative research chemist, a highly knowledgeable patent specialist and expert witness, and a brilliant manager of science-based chemical technology. This first full-length scientific biography of Heinrich Caro delineates his role in the emergence of the industrial research laboratory, the forging of links between academic and industrial chemistry, and the development of modern patent law. Major chemical topics include the rise of classical organic chemistry, collaboration with Adolf Baeyer, artificial alizarin and indigo, aniline dyes, and other coal-tar products, particularly intermediates.