Molecular BioelectronicsMolecular bioelectronics is a field in strong evolution at the frontier of life and materials sciences. The term is utilized in a broad context to emphasize a unique blend of electronics and biotechnology which is seen as the best way to achieve many objectives of industrial and scientific relevance, including biomolecular engineering, bioelectronic devices, materials and sensors capable of optimal hardware efficiency and intelligence and molecular miniaturization. |
Contents
List of Contributors V | 1 |
Active Bioelements 555 | 9 |
Technologies | 17 |
Multiple Electron Transfer Pathways | 80 |
Cytochrome | 86 |
CrossExchange | 93 |
Bioelectronic Materials | 113 |
Role of Water and 2D Order | 120 |
2D Crystals | 145 |
Array Homogeneity and Size | 165 |
Bioelectronic Sensors | 181 |
Bioelectronic Molecular Devices | 209 |
Year Zero | 233 |
171 | 243 |
175 | 255 |
Fullerene and Other Organic Thin Films | 130 |
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Common terms and phrases
activity air-water interface antibodies arachidate arachidic acid arrays atomic azurin bacteriorhodopsin behaviour Berzina bias voltage bilayers bioelectronics Biol biological biosensor cells cellular automaton Chem chemical complex compounds conductivity Coulomb Blockade curve cytochrome B5 cytochrome P450scc denaturation deposition devices diffraction dipole electron transfer electron transfer pathways electron-transfer ellipsometry enzyme equation Erokhin experimental Facci fatty acid Figure formation fullerene functional granule groups heme hydrophobic immobilised interaction ionic strength Langmuir Langmuir-Blodgett films layer LB films LB technique lipid measured membrane metal metalloproteins method microscopy molecular molecules monolayer multilayer Nicolini obtained oligonucleotides optical parameters Phys possible properties protein 2D crystals protein film rate constants reaction redox rhodopsin sample scanning semiconductor Sensors sequence signal silicon solution STM images structure subphase surface pressure thermal thickness Thin Solid Films thioredoxin transducer Troitsky tunnelling V-I characteristics valinomycin X-ray
Popular passages
Page 263 - Tanigaki, K., Hirosawa, I., Ebbesen, TW, Mizuki, J., Shimakawa Y., Kubo, Y., Tsai, JS, and Kuroshima, S., Nature 1992, 356, 419. 21. Williams, JM, Ferraro, JR, Thorn, RJ, Carlson, KD, Geiser, U., Wang, HH, Kini, AM, and Whangbo, M.-Y. "Organic Superconductors (Including Fullerenes) Synthesis, Structure, Properties, and Theory," Prentice-Hall, Englewood Cliffs, New Jersey (1992).