The ability for a material to change properties in response to external stimuli is an attractive feature for numerous applications and as such stimuli responsive materials are gaining attention across many different fields. This book introduces the concepts of stimuli-responsiveness, including the fundamental materials properties required for design. It provides readers with comprehensive scientific principles and developments of stimuli responsive materials, as well as the recent technological advances. Written by a renowned expert in the field, this book is suitable for anyone interested in stimuli responsive materials working in polymers, biochemistry, biotechnology and materials science.
Combines theoretical fundamentals with practical applications of attenuated total reflectance to the analysis of polymers and polymeric materials. Provides a comprehensive quantitative novel approach to the analysis and interpretation of attenuated total reflectance. Discusses sampling and microsampling techniques suitable for use with attenuated total reflectance analyses. Examines the advantages and disadvantages of attenuated total reflectance spectroscopy.
The ability for a material to change properties in response to external stimuli is an attractive feature for numerous applications and as such stimuli responsive materials are gaining attention across many different fields. This book introduces the concepts of stimuli-responsiveness, including the fundamental materials properties required for design. It provides readers with comprehensive scientific principles and developments of stimuli responsive materials, as well as the recent technological advances. Written by a renowned expert in the field, this book is suitable for anyone interested in stimuli responsive materials working in polymers, biochemistry, biotechnology and materials science.
As polymer systems have become more complex, often consisting of blends or composites of a variety of materials, analysis based on single measurement of average property no longer adequately characterizes a polymeric material. Consequently, researchers are using linked instrumental techniques to characterize the materials, and this has resulted in what is termed hyphenated techniques. This book presents a snapshot of state-of-the-art applications and methodologies of polymer characterization techniques in six areas: Hyphenated Spectroscopic Methods, Hyphenated Chromatographic Methods, Chromatographic Methods, Surface Analysis Methods, Microscopic Methods, and Solid State NMR Methods.
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