분자간 포텐셜과 나노계 상태와의 상관관계

Correlation between an Intermolecular Potential and the State of a Nanoscale System

  • 최순호 (경상대학교 친환경냉열에너지 기계연구사업단) ;
  • 정한식 (경상대학교, 정밀기계공학과) ;
  • 정효민 (경상대학교, 정밀기계공학과) ;
  • 임민종 (삼성전자 정보통신총괄) ;
  • 최경민 (부산대학교 기계공학과) ;
  • 김덕줄 (부산대학교 기계공학과)
  • 발행 : 2007.05.30

초록

Recently, as MEMS and NEMS devices have been widely used in the various engineering applications, the characteristics of nanoscale systems are investigated in the limelight. However, as opposed to a macroscale system, the identification of the state of nanoscale systems is extremely hard because they can include only the order of $10^{3}\sim10^{5}$ molecules, which requires highly expensive and accurate experimental apparatus for an investigation. This limitations make the study on nanoscale system use computer simulations. Therefore, it is strongly required to identify the state of nanoscale system simulated in computer simulation. In these molecular dynamics(MD) study, we suggest that the potential energy of individual molecule can be used as criterion for defining the state of clusters or nanoscale systems. In addition, we compared the phase state from the potential energy with one from the radial distribution function(RDF) for verification. The comparison showed that the intermolecular potential energy can be used as a criteria distinguishing the phase state of nanoscale systems (This study will be published soon in the KSME transaction of the section B).

키워드