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nano and microscale heat transfer, 2007, p.504

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[...]... developments in micro- and nanoelectromechanical systems (MEMS and NEMS), microfluidics and nanofluidics, quantum structures and devices, photonics and optoelectronics, nanomaterials for molecular sensing and biomedical diagnosis, and scanning probe microscopy for measurement and manipulation at the molecular and atomic levels Nanotechnology research has not only emerged as a new area of science and engineering,... characteristics of nanostructures for utilizing light energy, and to develop novel nanofabrication and sensing techniques Recent studies have focused on photonic crystals, nanocrystals, plasmonic waveguides, nanofabrication and nanolithography, light interaction with organic materials, biophotonics, biosensors, quantum electrodynamics, nanocavities, quantum dot and quantum wire lasers, solar cells, and so forth... title to ‘Micro/Nanoscale Heat ,’ and to talk about some coverage on nano aspects.” Professor Tien opened my eyes, and it took me several years afterward to complete this book, which now has more emphasis on nanoscale thermal sciences and engineering I also benefited greatly from the encouragements and comments received through discussions with a large number of people in the heat transfer and thermophysics... that these nanotubes hold promise as the building block of nanoelectronics Others have found that the thermal conductivity of single-walled carbon nanotubes at room temperature could be an order of magnitude higher than that of copper Therefore, carbon nanotubes have been considered as a candidate material for applications that require a high heat flux In conventional fluid mechanics and heat transfer,. .. electrons in metals, and phonons or lattice vibration in dielectric solids) often falls in the micrometer to nanometer scales, depending on the material, temperature, and type of carrier This book is motivated by the need to understand the thermal phenomena and heat transfer processes in micro/nanosystems and at very short time scales for solving problems occurring in contemporary and future technologies... well as temperature and pressure measurements Fiber drawing process involves complicated heat transfer and fluid dynamics at different length scales and temperatures.19 Nanophotonics is an emerging frontier that integrates photonics with physics, chemistry, biology, materials science, manufacture, and nanotechnology The foundation of nanophotonics is to study interactions between light and matter, to explore... size of automobiles and airplanes We have already enjoyed camera phones and the iPod that can store thousands of pictures and songs In the next few decades, the advancement of nano/ microscale science and engineering will fundamentally restructure the technologies currently used in manufacturing, energy production and utilization, communication, transportation, space exploration, and medicine.1,2 A key... scanning probe microscopes (SPMs) and near-field scanning optical microscopes (NSOMs) in the 1980s enabled unprecedented capabilities for the visualization and manipulation of nanostructures, such as nanowires, nanotubes, nanocrystals, single molecules, individual atoms, and so forth, as will be discussed in Sec 1.3.4 Figure 1.2 also shows that the mean free path of heat Wavelength range Radio waves... microfabrication technology, MEMS and NEMS, quantum structures (e.g., superlattices, nanowires, nanotubes, and nanoparticles), optoelectronics and lasers, including ultrafast lasers, and molecular- to atomic-level imaging techniques (such as high-resolution electron microscopy, scanning tunneling microscopy, atomic force microscopy, near-field optical microscopy, and scanning thermal microscopy) The... future technological growth Solutions to more and more problems in small devices and systems require a solid understanding of the heat (or more generally, energy) transfer mechanisms in reduced dimensions and/ or short time scales, because classical equilibrium and continuum assumptions are not valid anymore Examples are the thermal analysis and modeling of micro/nanodevices, ultrafast laser interaction . microscopic descriptions and approaches, as well as their applications in thermal science and engineering, with an emphasis on energy trans- port in gases and solids by conduction (diffusion) and. his support and mentorship at the early stage of my independent research and teaching career. Professor David Tanner in the Department of Physics of UF helped me understand solid state physics;. Journal of Thermophysics and is an associate editor for the Journal of Quantitative Spectroscopy & Radiative Transfer and the Journal of Thermophysics and Heat Transfer. Copyright © 2007 by

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