Description
Finely Dispersed Particles
Micro-, Nano-, and Atto-Engineering
Coordinators: Spasic Aleksandar M., Hsu Jyh-Ping
Language: EnglishSubjects for Finely Dispersed Particles:
Keywords
Mass Transfer; SPG Membrane; Shear Rates; PLA Microparticle; Droplet Formation; Zeta Potential; Image Analysis; Electrophoretic Mobility; Electrophoretic Velocity; Mass Transfer Coefficients; Capillary Condensation; Mechanochemical Treatment; Energy Balances; Flowing Solids Particles; Colloid Interf; Impeller Zone; Immobilized Cells; Carbon Nanocapsules; SAS; Mechanical Alloying; Van Swaaij; Sf; Singular Surface; Mechanochemical Reactions; Electrostatic Droplet Generation
Publication date: 10-2019
· 17.8x25.4 cm · Paperback
Publication date: 10-2005
936 p. · 17.8x25.4 cm · Hardback
Description
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Over the last decade, the biggest advances in physical chemistry have come from thinking smaller. The leading edge in research pushes closer to the atomic frontier with every passing year. Collecting the latest developments in the science and engineering of finely dispersed particles and related systems, Finely Dispersed Particles: Micro-, Nano-, and Atto-Engineering explores heat, mass, momentum and electron transfer phenomena of well-characterized interfaces at the milli-, micro-, nano-, and atto-scales.
An interdisciplinary team of leading experts from around the world discuss recent concepts in the physics and chemistry of various well-studied interfaces of rigid and deformable particles in homo- and hetero-aggregate dispersed systems, including emulsions, dispersoids, foams, fluosols, polymer membranes, and biocolloids. The contributors clearly elucidate the hydrodynamic, electrodynamic, and thermodynamic instabilities that occur at interfaces, as well as the rheological properties of interfacial layers responsible for droplets, particles, and droplet-particle-film structures in finely dispersed systems. The book examines structure and dynamics from various angles, such as relativistic and non-relativistic theories, molecular orbital methods, and transient state theories.
With a comprehensive survey of our current understanding, Finely Dispersed Particles: Micro-, Nano-, and Atto-Engineering provides a solid platform for further exploration and discovery at increasingly smaller scales.