Molecular scale latch and associated clocking scheme to provide gain, memory and I/O isolation
作者: Daniel L. Rosewater , Seth Copen Goldstein
DOI:
关键词:
摘要: Chemically assembled electronic nanotechnology (CAEN) provides an alternative to using Complementary Metal Oxide Semiconductor (CMOS) for constructing circuits with feature sizes in the tens of nanometers. A molecular latch and a method that enables it act as state holding device, perform voltage restoration, provide I/O isolation is disclosed.
google.de 参考文章(31)
Hung C. Lin, Multi-valued memory cell using bidirectional resonant tunneling diodes ,(1992)
Gary A. Frazier, Three terminal tunneling device ,(1986)
Barry Kent Gilbert, William Williamson, Resonant tunneling diode structures for functionally complete low power logic ,(1995)
Dennis Michael Connolly, Chemically assembled nano-scale devices ,(1999)
Erez Braun, Yoav Eichen, Uri Sivan, Gdalyahu Ben-Joseph, Microelectronic components and electronic networks comprising dna ,(1998)
Philip J. Kuekes, R. Stanley Williams, James R. Heath, Chemically synthesized and assembled electronic devices ,(2001)
Philip J. Kuekes, R. Stanley Williams, James R. Heath, Molecular wire crossbar memory ,(1999)
Anri Nakajima, Toshiro Futatsugi, Kinjiro Kosemura, Tetsu Fukano, Naoki Yokoyama, Room temperature operation of Si single-electron memory with self-aligned floating dot gate Applied Physics Letters. ,vol. 70, pp. 1742- 1744 ,(1997) , 10.1063/1.118653
M.-Victoria Martínez-Díaz, Neil Spencer, J. Fraser Stoddart, The Self‐Assembly of a Switchable [2]Rotaxane Angewandte Chemie. ,vol. 36, pp. 1904- 1907 ,(1997) , 10.1002/ANIE.199719041
I. Aleksander, R.W.A. Scarr, Tunnel devices as switching elements Journal of the British Institution of Radio Engineers. ,vol. 23, pp. 177- 192 ,(1962) , 10.1049/JBIRE.1962.0023