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Neutrons, which are a penetrating yet non destructive probe, are ideally suited to studying the structure, organisation and motion of molecules responsible for the physical properties of materials under a variety of conditions. Applications are in fields as diverse as colloid and polymer science, earth sciences, pharmaceutics, biology and engineering. This book will be of interest to both present and potential future users of neutron sources working in these areas, as both a useful reference and a comprehensive overview.
Many books offer coverage of the current work of top researchers, but rarely is any attempt made to look beyond the present day. Emerging Themes in Polymer Science is a unique book which not only documents the latest research but also provides an insight into the likely future of polymer science. At the heart of the debate, and a key feature of the book, is the relationship between polymer science and biology. Also discussed are polymer semi-conductors and devices; polymer colloids; biomaterials; tissue engineering and polymers; neutron and synchrotron research; theory; and rheology. Anyone involved in polymer research, including those in the fields of electronics and nanotechnology, will welcome this book.
This text deals with the behavior of polymers at surfaces and interfaces. Topics covered include the nature and properties of the surface of a polymer melt, the structure of interfaces among different polymers and between polymers and nonpolymers, the molecular basis of adhesion and the properties of polymers at liquid surfaces. Emphasis is placed on the underlying physical principles. It introduces statistical mechanics models of polymer behavior near interfaces, emphasizing theory that is applicable to experimental situations. Advanced undergraduates, graduate students and research workers in physics, chemistry and materials science with an interest in polymers will find this book of interest.
This volume contains the major portion of the material given at the NATO Advanced Study Institute, held at the University of Strathclyde, Glasgow, UK. , September 6th-18th, 1981. The original idea germin ated in a conversation between the organisers on a cold December night in 1978 in the depths of the Oxfordshire countryside. At that time we felt that the chemical physics of macromolecules in the solid state was running on two parallel tracks, namely structure and dynamics. The contact between the two appeared to be slight. We were also concerned that the degree of srecial knowledge now required for any one technique essentially prevented people from learning the important features of other...
Provides an up-to-date and critical examination of biophysical techniques used in the analysis of molecular mechanisms underlying transdermal drug delivery as well as a physical and chemical evaluation of the stratum corneum necessary for the enhancement of percutaneous drug transport. Reflects the hands-on experience of established and novel researchers in the field.
Offers an overview of recent advances in multiphase polymeric materials, ranging from theoretical aspects of polymer miscibility and phase separation kinetics to bulk, surface and interface properties in polymeric materials. This work considers the possibility of a nondestructive methodology to investigative multiphase polymers based mainly on a scattering technique that is sensitive to changes in the phase behaviour of multicomponent polymer systems.
Techniques such as surface patterning have facilitated the emergence of advanced polymers with applications in areas such as microelectronics. Surface patterning of polymers has conventionally been undertaken by optical lithography. However, a new generation of nanolithographic and patterning techniques has made it possible to develop complex patterns at the nanoscale. Non-conventional lithography and patterning summarises this new range of techniques and their industrial applications. A number of chapters look at ways of forming and modifying surfaces for patterning. These are complemented by chapters on particular patterning techniques such as soft lithography, ion beam patterning, the use...
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