Advanced Semiconductor and Organic Nano-techniques, Part 3
Academic Press, 2003 - DNA microarrays - 1495 pages
Physical sciences and engineering, as well as biological sciences have recently made great strides in their respective fields. More importantly, the cross-fertilization of ideas, paradigms and methodologies have led to the unprecedented technological developments in areas such as information processing, full colour semiconductor displays, compact biosensors and controlled drug discovery to name a few.
Top experts in their respective fields have come together to discuss the latest developments and the future of micro-nano electronics. They investigate issues to be faced in ultimate limits such as single electron transitors; zero dimensional systems for unique properties; thresholdless lasers, electronics based on inexpensive and flexible plastic chips; cell manipulation; biosensors; DNA based computers; quantum computing; DNA sequencing chips; micro fluidics; nanomotors based on molecules; molecular electronics and recently emerging wide bandgap semiconductors for emitters, detectors and power amplifiers.
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Electrical Conduction through Molecules
HI Toy Models
A Realistic Multilevel Model
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13C NMR acid acoustic afforded alkyne Anal Appl applications array atomic force microscope bias Biol biological biosensors bond cells cellular charge Chem chemical chip chromatography compounds conduction copper(I coupling reaction density detection device diisopropylethylamine DNA computation effects electric field electron eluent energy enzymes etching fabrication Fermi Fermi energy fiber film flow fluorescence force microscopy FTIR KBr function gene genome H NMR HRMS calcd hybridization IEEE interactions iodide laser layer Lett lithography manipulation material measurements mechanisms membrane metal methylene chloride micro microarrays microchannels microfabricated microparticle mixture mmol molecule motor mutations nanosensors neurons NMR CDC13 optical trap optical tweezers oxide particles patterned Pd/Cu Pd/Cu-catalyzed coupling Phys polymer potential probe protein room temperature sample scanning tunneling microscope sensor sequence shown in Fig silica gel silicon solid solution specific strands structures substrate surface technique triphenylphosphine voltage