
This book for advanced undergraduates covers areas of mechanistic and physical organic chemistry in a non-mathematical way. The topics included are essential in any modern chemistry degree, yet are not included in standard organic chemistry textbooks for undergraduates. The book starts with a consideration of molecular vibrations and intermolecular interactions, and introduces the use of potential energy profiles and reaction maps to describe organic chemical transformations. The relationship between kinetics and organic reaction mechanisms is then explored with special emphasis on the interpretation of activation parameters. The relationship between molecular structure and chemical reactivity, i.e. correlation analysis, is then covered, followed by a chapter on catalysis of organic chemical reactions in solution by small molecules. The treatment of catalysis explores how the molecular structure of compounds determines their reactivity either as substrates or as catalysts. The final chapter is devoted to isotope effects in mechanistic organic chemistry, concentrating on deuterium kinetic isotope effects.
This text investigates the fundamental relationship between molecular structure and chemical reactivity within the framework of mechanistic and physical organic chemistry. Howard Maskill, an experienced chemist, provides an advanced pedagogical resource designed for undergraduates who require a conceptual, non-mathematical approach to complex reaction mechanisms. The book utilizes potential energy profiles and reaction maps to bridge the gap between standard textbook theory and the practical application of kinetic analysis in solution-based chemistry.
What You Will Find
Experts and educators recognize this volume as a specialized resource that fills gaps left by broader undergraduate chemistry textbooks. Readers frequently note the clarity of the non-mathematical explanations, making it a valuable supplementary text for students focusing on mechanistic organic chemistry.
Page Count:
95
Publication Date:
1999-12-15
Publisher:
Oxford University Press
ISBN-10:
0198558201
ISBN-13:
9780198558200
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