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Elsevier

Books in Chemistry

Chemistry topic areas include: physical and theoretical, computational, organic, organometallic and inorganic, pharmaceutical and medicinal, analytical and bioanalytical, nuclear, general, nanochemistry, geochemistry, materials and polymer, as well as environmental, green and sustainable chemistry.

  • Environmental Chemistry

    • 1st Edition
    • John Moore
    • English
    Environmental Chemistry concerns with the broad interpretation on what environmental chemistry is and discusses chemistry in relation to environmental topics. The book is divided into seven parts. Part I discusses the origins of different elements and interstellar molecules; the development of the earth; and the chemical evolution of life. Part II talks about energy and its theoretical treatment; the origin, development, and problems related to fossil fuels; and the developing energy sources, including storage, distribution, and conservation. Part III discusses the air; the structure and properties of the atmosphere; and air pollution in relation to different industries and transportation. Mineral resources and solid wastes are tackled in Part IV, and the principles and treatment of water are explained in Part V. Part VI discusses the sustenance of life, amino acids, and the control of toxins, and Part VII studies the relationship of science, ethics, and ecology. The text is good for those in the field of chemistry and wish to understand the importance of their field to the environment, and for environmentalists and ecologists who want to know the relationship of chemistry with their studies.

  • Mathematical Methods XIB

    • 1st Edition
    • Douglas Henderson
    • English
    Physical Chemistry: An Advanced Treatise, Volume XIB: Mathematical Methods focuses on mathematical techniques that consist of concepts relating to differentiation and integration. This book discusses the methods in lattice statistics, Pfaffian solution of the planar Ising problem, and probability theory and stochastic processes. The random variables and probability distributions, non-equilibrium problems, Brownian motion, and scattering theory are also elaborated. This text likewise covers the elastic scattering from atoms, solution of integral and differential equations, concepts in graph theory, and theory of operator equations. This volume provides graduate and physical chemistry students a basic understanding of mathematical techniques important in chemistry.

  • Azides and Nitrenes

    Reactivity and Utility
    • 1st Edition
    • Eric Scriven
    • English
    Azides and Nitrenes: Reactivity and Utility provides information pertinent to the fundamentals aspects of the chemistry of azides and nitrenes. This book discusses the mechanism and synthetic applications of alkyl azides. Organized into 10 chapters, this book begins with an overview of the properties and chemistry of alkyl azides and alkylnitrenes. This text then examines the various pathways to the preparation of vinyl azides. Other chapters consider the magnetic resonance spectrum of phenyl azide, which may be taken as a representative to which more complex examples can be related. This book discusses as well the acyl azides and acylnitrenes that have their nitrogen function attached to electron-withdrawing groups not possessing a heteroatom bearing an unshared electron pair next to the nitrogen function. The final chapter deals with the main uses for organic azides involved in photochemical cross-linking of polymeric systems. This book is a valuable resource for chemists, spectroscopists, and theoreticians.

  • The Radiation Chemistry of Macromolecules

    • 1st Edition
    • Malcolm Dole
    • English
    The Radiation Chemistry of Macromolecules is the first from a two-volume series aiming to contribute to the radiation chemistry in general. The chapters in this volume are divided into two major parts, where the first part deals with the basic processes and theory, while the second part tackles experimental techniques and applications to polyethylene. Part I focuses on the discussion on general principles of radiation effects; fundamental concepts on energy transfer; and the theory of free radicals. The subject of polymers is discussed thoroughly in several chapters including its molecular mobilities and electrical conductivity. Part II presents experimental techniques and a description of the radiation chemistry of a single polymer. This part also includes a discussion on the morphology of polyethylene and free radicals in irradiated polyethylene. This book is an important reference to students and scientists in the field of radiation chemistry of macromolecules.

  • Polar Covalence

    • 1st Edition
    • R Sanderson
    • English
    Polar Covalence provides a detailed account of a successful approach to understanding chemistry from knowledge of atomic structure and the properties that result from this structure. This book discusses the nature of multiple bonds. Organized into 16 chapters, this book begins with an overview of the interrelationships of various basic atomic properties. This text then describes chemical bonding, which can only occur when the nuclei of both atoms can attract the same electrons. Other chapters consider the bond energy of multiple bonds, which can be determined by calculating the energy in the usual way as though the bonds were single but of the experimental length. This book discusses as well the reduction of the lone pair bond weakening effect through the formation of multiple bonds. The final chapter deals with the relative roles of principles and practice in the teaching of inorganic and general chemistry. This book is a valuable resource for chemists and students.

  • Excited States V5

    • 1st Edition
    • Edward Lim
    • English
    Excited States, Volume 5 consists of three concise and detailed chapters. These chapters cover the topics of excited-state potential surfaces of polyatomic molecules; vibronic spectroscopy of benzene; and quantum statistical mechanical (QSM) theory for molecular relaxation processes. Chapter 1 discusses excited-state potential surfaces with focus on ab initio calculations. Simple methods of computational schemes are also presented in this chapter. Chapter 2 reviews the excited electronic states of benzene. This chapter also includes the basic theory of benzene electronic excitations and the various types of spectroscopy (absorption, vibrational Raman, and electron-impact). Lastly, Chapter 3 presents a unified QSM theory, phenomenological theory of irreversible thermodynamics, and kinetics. The focus of QSM theory is on the nonlinear domain and is used to construct a nonlinear theory for the relaxation of excited molecules that are electric, vibrating, and rotating. This volume is a good reference for students and researchers studying in the field of chemistry and physics.

  • Phase Transfer Catalysis

    Principles and Techniques
    • 1st Edition
    • Charles Liotta
    • English
    Phase Transfer Catalysis: Principles and Techniques outlines the theory, mechanism, and kinetics of the phase transfer catalysis (PTC) process. This book surveys the principal reaction types that have employed the PTC, including the typical experimental procedures for preparing catalysts and conducting representative types of chemical reactions. This compilation discusses the transfer of anions from aqueous to organic phases, macrocyclic ethers as phase transfer catalysts, halide displacement reactions, and Darzen’s reaction with chloroacetonitrile. The dihalocarbene insertion reactions into C-H bonds, Wittig reaction with aqueous sodium hydroxide, and phase transfer catalyzed oxidation and reduction reactions are also elaborated. This text likewise covers the deuterium exchange of active hydrogens and thiolation with organic thiocyanates. This publication is beneficial to chemists and students studying the principles and techniques related to PTC.

  • Advances in High Temperature Chemistry V4

    • 1st Edition
    • Leroy Eyring
    • English
    Advances in High Temperature Chemistry, Volume 4 reviews and evaluates some techniques in high temperature chemistry. This book first discusses infrared and ultraviolet spectroscopy of free radicals and molecular ions. It then turns to atomic carbon reactions and gas-solid surface reactions. It also presents several techniques for studying liquids and solids at extreme temperatures. Researchers and high temperature chemists will find this book invaluable.

  • Transition-Metal Organometallic Chemistry

    An Introduction
    • 1st Edition
    • R. Bruce King
    • English
    Transition-Metal Organometallic Chemistry: An Introduction presents the basic facts and principles of transition-metal organometallic chemistry. The book discusses the general principles of transition-metal organometallic chemistry; the organometallic derivatives of the early transition metals; and the organometallic derivatives of chromium, molybdenum, and tungsten. The text also describes the organometallic derivatives of manganese, technetium, and rhenium; the organometallic derivatives of iron, ruthenium, and osmium; and the organometallic derivatives of cobalt, rhodium, and iridium. The organometallic derivatives of nickel, palladium, platinum, copper, silver, and gold are also considered. Chemists and chemistry students will find the book invaluable.

  • Introduction to Inductively Coupled Plasma Atomic Emission Spectrometry

    • 1st Edition
    • Volume 3
    • G.L. Moore
    • English
    Today, atomic emission spectroscopy is a well-established analytical technique of widespread application - a technique that no-one involved or interested in chemical analysis can afford to ignore. The present book was written to meet the need for an extensive introduction to this technique. It is written in an easy-to-understand way, and is mainly aimed at tertiary-level students at universities and colleges, and at newcomers to the field.The book prepares the reader for the study of more advanced texts and the increasing number of research papers published in this area. It will not only be of great use to the analytical chemist, but will appeal to specialists in other fields of chemistry who need an understanding of analytical techniques. The book introduces the analytical techniques of atomic emission spectroscopy, outlining the principles, history and applications. It discusses spectrography, excitation sources, inductively coupled plasmas, instrumentation, nebulization, sample dissolution and introduction, accuracy and precision, internal standardization, plasma optimization, line selection and interferences, and inductively coupled plasma mass spectroscopy. Understanding of the material is aided by 128 illustrations, including 11 photographs. References follow each chapter, and an extensive index completes this useful work.

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