Mark A. Reed, Takhee Lee
American Scientific Publishers, 2003 - Science - 394 pages
Molecular Nanoelectronics is the first and sole reference source ever published to have overviews of nanoelectronics based on the nanometer scale building blocks such as organic molecules, nanoparticles, nanocrystals, nanotubes and nanowires. This book covers topics on transport theory through nanostructures, processing, self-assembly, device fabrication, and architecture for the nanoelectronic device applications. The state-of-the-art chapters are written by leading experts from academia and industries. It contains about 2,000 bibliographic citations and hundreds of illustrations, figures, tables, chemical structures and equations. Each review chapter is fully cross-referenced introducing some of the most important breakthroughs in molecular nanoelectronics, technologies under development today. By introducing all latest research progresses in the molecular nanoelectronics, this book will be a valuable reference to the researchers in solid-state physics, materials science, electrical and electronic engineering, chemistry, and individuals who are interested in the newly emerging field of nanoelectronics. It could be used for a one-semester graduate course in molecular nanoelectronics.
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Incoherent Transport and Vibronic Coupling
How to Measure Monolayers?
Rectification by Monolayers and Molecules of C16H33Q3CNQ 25
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13C NMR adsorbed alkanethiol alkyne Appl atoms barrier behavior bias carbon nanotubes charge Chem chemical chromatography circuits components compounds conductance configuration copper(I coupling reaction curve defect density deposited devices dielectric diisopropylethylamine diode dipole elec electrical emission energy evaporated exciton fabrication Fermi energy Fermi level film FTIR KBr function gate gold H NMR HRMS calcd interface iodide J. M. Tour layer Lett logic material matrix measured metal mixture mmol molecular wire molecules monolayer nanocrystals nanoelectronics nanoparticles nanoscale nanoshells NMR 400 MHz NMR CDC13 orbitals organic oxide p-n junction p-type particles Pd/Cu pentacene photon Phys polymer potential probe properties quantum R. M. Metzger resonance room temperature sample Science self-assembled semiconductor shown in Figure silica gel silicon solid solution solvent structure substrate surface switching SWNTs synthesis thermal thiol tion transistors triphenylphosphine voltage