Information Technology Reference
In-Depth Information
5. K. Nikolic, A. Sadek, and M. Forshaw. Fault-tolerant techniques for nanocomputers.
Nanotechnology, 13(3): pp 357-362, 2002.
6. J. Han and P. Jonker. A defect- and fault-tolerant architecture for nanocomputers.
Nanotechnology, 14(2): pp 224-230, 2003.
7. M. B. Tahoori and S. Mitra. Defect and fault tolerance of reconfigurable molecular
computing. In: 12th Annual IEEE Symposium on Field-Programmable Custom
Computing Machines, 2004.
8. A. DeHon and H. Naeimi. Seven strategies for tolerating highly defective fabrication.
IEEE Design and Test of Computers, 22(4): p 306, 2005.
9. E. Lo
ยจ
rtscher, et al. Reversible and controllable switching of a single-molecule
junction. Small, 2(8-9): pp 973-977, 2006.
10. D. Natelson, et al. Single-molecule transistors: electron transfer in the solid state.
Chemical Physics, 324(1): p 267, 2006.
11. S. J. Tans, A. R. M. Verschueren, and C. Dekker. Room-temperature transistor based
on a single carbon nanotube. Nature, 393(6680): p 49, 1998.
12. W. Liang, et al. Kondo resonance in a single-molecule transistor. Nature, 417(6890):
p 725, 2002.
13. D. K. James and J. M. Tour. Molecular Wires. Topics in Current Chemistry, Vol. 257/
2005. Berlin: Springer, p 33, 2005.
14. D. K. James and J. M. Tour. Organic synthesis and device testing for molecular
electronics. Aldrichimica Acta, 39(2): pp 47-56, 2006.
15. B. A. Mantooth and P. S. Weiss. Fabrication, assembly, and characterization of
molecular electronic components. Proceedings of the IEEE, 91(11): p 1785, 2003.
16. J. M. Tour. Molecular Electronics. Synthesis and testing of components. Accounts of
Chemical Research, 33(11): p 791-804, 2000.
17. D. K. James and J. M. Tour. Analytical techniques for characterization of organic
molecular assemblies in molecular electronics devices: A review. Analytica Chimica
Acta, 568 pp 2-19, 2006.
18. T. He, et al. Controlled modulation of conductance in silicon devices by mole-
cular monolayers. Journal of American Chemistry Society, 128(45): pp 14537-14541,
2006.
19. A. Ulman. Formation and structure of self-assembled monolayers. Chemical Reviews,
96(4): pp 1533-1554, 1996.
20. M. P. Stewart, et al. Direct covalent grafting of conjugated molecules onto Si, GaAs,
and Pd Surfaces from Aryldiazonium Salts. Journal of American Chemistry Society,
126(1): pp 370-378, 2004.
21. M. A. Reed, et al. Conductance of a molecular junction. Science, 278(5336): pp 252-
254, 1997.
22. C. Zhou, et al. Nanoscale metal/self-assembled monolayer/metal heterostructures.
Applied Physics Letters, 71(5): p 611, 1997.
23. C. Zhou. Atomic and Molecular Wires. New Haven, CT: Yale University Press,
1999.
24. J. Chen, et al. Large on-off ratios and negative differential resistance in a molecular
electronic device. Science, 286(5444): pp 1550-1552, 1999.
Search WWH ::
Custom Search