Physical and chemical aspects of the study of clusters, nanostructures and nanomaterials. Founded at 2009

METALS COALESCENCE AS A MECHANISM FOR NANOSOLDERING: SEARCHING STABLE CONFIGURATIONS

A.Yu. Kolosov, D.N. Sokolov, N.Yu. Sdobnyakov, P.V. Komarov, S.S. Bogdanov, A.A. Bogatov

DOI: 10.26456/pcascnn/2015.7.292

Original article

Abstract: The simulation of the creating gold nanoscale contacts between tracks of nanoscale buses for different system configurations by Monte-Carlo method was carried out. The interaction between nanoparticles was described by many-body Gupta potential. The optimum parameters for creating nanoscale contacts between tracks of nanoscale buses have been determined. The final stable structure of nanoscale contacts has been analyzed.

Keywords: nanoscale contact, nanosoldering, gold and silver nanoparticles, coalescence, MonteCarlo method, Gupta potential, stability

  • A.Yu. Kolosov
  • D.N. Sokolov
  • N.Yu. Sdobnyakov
  • P.V. Komarov
  • S.S. Bogdanov
  • A.A. Bogatov

Reference:

Kolosov A.Yu., Sokolov D.N., Sdobnyakov N.Yu., Komarov P.V., Bogdanov S.S., Bogatov A.A. Koalestsentsiya metallov kak mekhanizm nanopajki: poisk stabilnykh konfiguratsij [METALS COALESCENCE AS A MECHANISM FOR NANOSOLDERING: SEARCHING STABLE CONFIGURATIONS], Fiziko-khimicheskie aspekty izucheniya klasterov, nanostruktur i nanomaterialov [Physical and chemical aspects of the study of clusters, nanostructures and nanomaterials], 2015, issue 7, pp. 292-301. DOI: 10.26456/pcascnn/2015.7.292.

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