Introduction to Liquid Crystals (2nd Ed.) Chemistry and Physics, Second Edition
Auteurs : Collings Peter J., Goodby John W.
Introduction to Liquid Crystals: Chemistry and Physics, Second Edition relies on only introductory level chemistry and physics as the foundation for understanding liquid crystal science. Liquid crystals combine the material properties of solids with the flow properties of fluids. As such they have provided the foundation for a revolution in low-power, flat-panel display technology (LCDs). In this book, the essential elements of liquid crystal science are introduced and explained from the perspectives of both the chemist and physicist. This new edition relies on only introductory level physics and chemistry as the foundation for understanding liquid crystal science and is, therefore, ideal for students and recent graduates.
Features
- Introduces and explains the essential elements of liquid crystal science, including discussion of how liquid crystals have been utilized for innovative and important applications. New to this edition are over 300 figures, 90 end-of chapter exercises, and an increased scope that includes recent developments.
- Combines the knowledge of two eminent scientists in the field; they have fully updated and expanded the text to cover undergraduate/graduate course work as well as current research in what is now a billion-dollar industry.
- Immerses the reader in the vocabulary, structures, data, and kinetic models, rapidly building up an understanding of the theories and models in current use.
- Begins with a historical account of the discovery of liquid crystals and continues with a description of how different phases are generated and how different molecular architectures affect liquid crystal properties.
Introduction to a special phase of matter
Nature's anisotropic fluids
Calamitic Liquid Crystals - Nematic And Smectic Mesophases
Discotic liquid crystals - nematic and smectic mesophases
Discotic liquid crystals - columnar and nematic mesophases
Polymeric liquid crystals - macromesogens
Chiral liquid crystals - art and science
Lyotropic liquid crystals - anisotropic solutions
Synthesis of liquid crystals - strategies and methods
Identification of liquid crystals
Identification of liquid crystal phases - mesophase characterization
Liquid crystals in electric and magnetic fields - a delicate response
Light and liquid crystals - a panoply of colour
Theoretical insights
Liquid crystal technology
Peter J. Collings is Morris L. Clothier Emeritus Professor of Physics at Swarthmore College and Adjunct Professor of Physics at the University of Pennsylvania, USA. He is a Fellow of the American Physical Society and past Vice-President of the International Liquid Crystal Society. He is the author of Liquid Crystals: Nature’s Delicate Phase of Matter (Princeton University Press, 1990, 2002) and co-author of the first edition of Introduction to Liquid Crystals: Chemistry and Physics (Taylor & Francis, 1997).
John W. Goodby is Emeritus Professor of Materials Chemistry at the University of York, UK. He is a Fellow of the Royal Society and past President of the International Liquid Crystal Society. He is the co-author of Smectic Liquid Crystals: Textures and Structures (Leonard Hill, 1984), Ferroelectric Liquid Crystals: Principles, Properties and Applications (Gordon & Breach 1991), and Senior Editor of the Handbook of Liquid Crystals (Wiley-VCH, 2014).
Date de parution : 10-2019
15.6x23.4 cm
Date de parution : 10-2019
15.6x23.4 cm
Thèmes d’Introduction to Liquid Crystals :
Mots-clés :
Chiral Nematic; Liquid Crystals; Nuclear Magnetic Resonance; Materials science; Double Twist Cylinders; Condensed matter; Chiral Nematic Liquid Crystal; LCD; Discotic Liquid Crystal; Smectic and columnar liquid crystals; Focal Conic Fan Texture; Polymeric liquid crystals; Nematic Phase; anisotropic fluids; Nematic Liquid Crystal; liquid crystal science; Liquid Crystal Phases; discotic liquid crystals; Chiral Nematic Phase; flat-panel display technology; Lyotropic Liquid Crystal; calamitic liquid crystals; Liquid Crystal Polymers; Liquid Crystal Sample; Biaxial Nematic Phase; Orientational Order; Jones Matrix; Low Molar Mass Liquid Crystal; Circularly Polarized; Optical Retardation; Mesophase Formation; Mesogenic Units; Maier Saupe Theory; Jones Vector