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Electrophysical Properties Of Polymers With Implanted Amorphous Single - Component Metals

Published online by Cambridge University Press:  11 February 2011

R. Malkhasyan
Affiliation:
Scientific – Production Enterprise “ATOM”, Yerevan, Republic of ARMENIA.
R. Krmoyan
Affiliation:
Scientific – Production Enterprise “ATOM”, Yerevan, Republic of ARMENIA.
V. Kosyan
Affiliation:
Scientific – Production Enterprise “ATOM”, Yerevan, Republic of ARMENIA.
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Abstract

For the last years, especially after the creation of conducting polymers, much prominence has been given to the works on creation and working out the new technologies of implantation of different metals and, on the whole, inorganic components into the structure of different polymers.

Of special interest are rapidly developing researches in the field of creation and application of different nanomaterials also including metals in the processes of synthesis of different polymers.

The data on electrophysical properties of polyvinyl acetate with doping amorphous molybdenum, obtained for the first time in SPE “ATOM” of Armenia, are being presented and discussed for the first time in the given paper.

It is shown, that the dopes of amorphous nanosize molybdenum and crystalline nanosize molybdenum in the process of polymerization lead to its implantation into the structure of polymer. Amorphous molybdenum practically always lowers substantially electrical resistance of composite materials.

Type
Research Article
Copyright
Copyright © Materials Research Society 2003

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References

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