This book is the first to give a comprehensive account of the fundamental properties of metal-oxide surfaces and their interaction with atoms, molecules and overlayers. The surfaces of metal oxides play a crucial role in an extremely wide range of phenomena, including the environmental degradation of high-Tc superconductors and catalysis. They are also increasingly important in processes such as the passivation of metal surfaces and gas sensing for pollution monitoring and control. As well as giving a general overview of the properties of metal-oxides, an extensive and thorough compilation of the research that has been performed on well characterised oxide surfaces is provided, thus making the book suitable for those graduate students and established researchers in materials science, chemistry or physics who have an interest in metal-oxide surfaces.
Newly updated based on extensive reviewer feedback, this affordable introductory text remains focused on the essentials necessary for success in General Chemistry. Introduction to Chemistry Principle
Reaction-diffusion theory is a topic which has developed rapidly over the last thirty years, particularly with regards to applications in chemistry and life sciences. Of particular importance is the analysis of semi-linear parabolic PDEs. This monograph provides a general approach to the study of semi-linear parabolic equations when the nonlinearity, while failing to be Lipschitz continuous, is Hölder and/or upper Lipschitz continuous, a scenario that is not well studied, despite occurring often in models. The text presents new existence, uniqueness and continuous dependence results, leading to global and uniformly global well-posedness results (in the sense of Hadamard). Extensions of classical maximum/minimum principles, comparison theorems and derivative (Schauder-type) estimates are developed and employed. Detailed specific applications are presented in the later stages of the monograph. Requiring only a solid background in real analysis, this book is suitable for researchers in al
Atmospheric Pollution: History, Science, and Regulation provides a comprehensive introduction to the history and science of major air pollution issues. The book begins with an introduction to the basic atmospheric chemistry and the history of discovery of chemicals in the atmosphere, and then moves on to a discussion of the evolution of the earth's atmosphere, and the structure and composition of the present-day atmosphere. It then provides a comprehensive and accessible discussion of the five major atmospheric pollution topics: urban outdoor air pollution, indoor air pollution, acid deposition, stratospheric ozone reduction, and global climate change. The book contains numerous student examples and problems, over 200 color illustrations, and will form an ideal introductory textbook for a wide range of undergraduate and graduate courses on atmospheric pollution. It will also form a valuable reference text for researchers, and an introduction to the subject for general audiences.
Azoles are five-membered cyclic compounds containing one or more heteroatoms in the ring, at least one of which must be nitrogen. The rings contain the maximum number of non-cumulative double bonds consistent with the normal valencies of the ring atoms. This 1976 volume sets out in detail the structure and properties of these compounds and their derivatives. After an introduction and a section dealing with general physical properties there is an extensive discussion of electrophilic and nucleophilic substitution reactions. This is followed by a description of the types of reaction which modify the nucleus of the azole family. A short section on photochemical reactions compares those reactions which are not easy to classify with the thermolyses discussed in the previous chapter. To complete the work there is an extensive discussion of the properties of functional side groups and an extensive bibliography detailing about 1500 publications on azole chemistry.
Originally published in 2001, this book describes in detail various experimental techniques used in the study of liquid crystals. It will be indispensable for established workers in the field as well as students embarking on liquid crystal research. Each chapter in the book is dedicated to an important experimental technique used in the study and characterisation of liquid crystalline systems. Use of these techniques on liquid crystals requires modifications of traditional experiments, special sample handling and a fresh a approach to data analysis. In addition, general routes used to synthesise liquid crystals and tools to characterise liquid crystal phases are described. Attempts are also made to show structure property relationships for well known systems. This book will be of particular interest to graduate students in physics and chemistry as well as established researchers in the fields of liquid crystals and soft condensed matter.
Einstein's Mirror is a book on relativity with a difference. Following the successful format of their earlier book, The Quantum Universe, the authors blend a simple, non-mathematical account of the underlying theory of special relativity and gravitation with a description of the way these theories have been triumphantly supported by experiment. Applications of relativity in atomic and nuclear physics are wide-ranging, from satellite navigation systems, particle accelerators and nuclear power to quantum chemistry, anti-matter and black holes. The text is enlivened by a superb collection of photographs and by amusing anecdotes about the early pioneers. The closing chapter examines the influence of Einstein's relativity on the development of science fiction. Final year students at school, general readers with an interest in science, and undergraduates in science subjects will all enjoy and benefit from this fascinating and accessible introduction to one of the most profound scientific dis
This book provides an introduction to recent analytical and experimental studies of plant growth in the sea. The physiology and ecology of marine plants are, therefore, emphasized at the expense of a more traditional taxonomic or morphological treatment. The physics and chemistry of the marine environment are examined with specific reference to the requirements of marine plants, and much of the book concentrates on those aspects of their physiology which are unique to marine plants, or which help us to understand their ecology. Since over 90% of the species of marine plants are algae, most of the book is devoted to the marine representatives of this group, with examples from all oceans and coasts of the world where detailed work has been done. Phytoplankton and seaweeds are discussed together in chapters on photosynthesis, growth and productivity, and geographical distribution, in order to provide an integrated picture of the biology of marine plants in general. There is, however, a de
This collection of challenging experiments will help get readers up to speed on laboratory techniques, safety and experimental procedures. Each experiment is presented with concise objectives, a compr
1.including substantial review sections from general chemistry that are essential to understanding organic chemistry; 2.introducing some difficult topics in spiral fashion, with preview and review sec
