CaltechAUTHORS
Published October 1991 | Version Published
Journal Article Open

Theoretical studies of a hydrogen abstraction tool for nanotechnology

Creators

  • 1. ROR icon California Institute of Technology

Abstract

In the design of a nanoscale, site-specific hydrogen abstraction tool, the authors suggest the use of an alkynyl radical tip. Using ab initio quantum-chemistry techniques including electron correlation they model the abstraction of hydrogen from dihydrogen, methane, acetylene, benzene and isobutane by the acetylene radical. By conservative estimates, the abstraction barrier is small (less than 7.7 kcal mol^-1) in all cases except for acetylene and zero in the case of isobutane. Thermal vibrations at room temperature should be sufficient to supply the small activation energy. Several methods of creating the radical in a controlled vacuum setting should be feasible. The authors show how nanofabrication processes can be accurately and inexpensively designed in a computational framework.

Additional Information

© Institute of Physics and IOP Publishing Limited 1991. Received 8 January 1991, accepted for publication 22 April 1991. We gratefully acknowledge the useful discussions with K Eric Drexler, Siddharth Dasgupta and Erik P Bierwagen. CBM was supported by a Department of Defense National Defense Science and Engineering Grant (NDSEG) fellowship and JKP was partially supported by a BP America fellowship. This research was partially supported by the Xerox Corporation. The facilities of the Materials and Molecular Simulations Center were supported by grants from NSF (NSF-CHE-9100284) and ONR/NRL, and by grants from Allied-Signal, BP America, Asahi Chemical, Asahi Glass, General Electric, General Motors, Chevron and Xerox.

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Additional details

Identifiers

Eprint ID
655
Resolver ID
CaltechAUTHORS:MUSnanotech91

Funding

National Defense Science and Engineering Graduate (NDSEG) Fellowship
BP America
Xerox Corporation
NSF
CHE-9100284
Office of Naval Research (ONR)
Naval Research Laboratory
Allied-Signal
Asahi Chemical
Asahi Glass
General Electric
General Motors
Chevron Corporation

Dates

Created
2005-09-12
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Updated
2022-07-12
Created from EPrint's last_modified field