The use of molecules for electronic devices was suggested by Mark Ratner of Northwestern University and Avi Aviram of IBM as early as the 1970s, but proper nanotechnology tools did not become available until the turn of the 21st century. Wiring up molecules some half a nanometre wide and a few nanometres long remains a major challenge, and an understanding of electrical transport through single molecules is only beginning to emerge. A number of groups have been able to demonstrate molecular switches, for example, that could conceivably be used in computer memory or logic arrays. Current areas of research include mechanisms to guide the selection of molecules, architectures for assembling molecules into nanoscale gates, and three-terminal molecules for transistor-like behaviour. More-radical approaches include DNA computing, where single-stranded DNA on a silicon chip would encode all possible variable values and complementary strand interactions would be used for a parallel processing approach to finding solutions. An area related to molecular electronics is that of organic thin-film transistors and light emitters, which promise new applications such as video displays that can be rolled out like wallpaper and flexible electronic newspapers.
Examples-from-biological-and-mechanical-realms-illustrate-various-orders-ofExamples from biological and mechanical realms illustrate various “orders of magnitude” …[Credits : Encyclopædia Britannica, Inc.]
The-structure-of-buckminsterfullereneThe structure of buckminsterfullerene (C60).[Credits : Encyclopædia Britannica, Inc.]
Top-down-approaches-have-been-developed-for-building-structures-atTop-down approaches have been developed for building structures at the scale of the micrometre …[Credits : Encyclopædia Britannica, Inc.]
Phospholipid-molecules-composed-of-fatty-acid-tails-and-a-phosphatePhospholipid molecules, composed of fatty acid “tails” and a phosphate …[Credits : Encyclopædia Britannica, Inc.]
Coherent-X-ray-diffraction-patterns-such-as-the-one-shownCoherent X-ray diffraction patterns, such as the one shown here of a nanosized metal cube, can be …[Credits : Reprinted by permission from Macmillan Publishers Ltd.; Nature, July 6, 2006, vol. 442, …]
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