화학공학소재연구정보센터
Korean Journal of Materials Research, Vol.19, No.3, 137-141, March, 2009
Density Functional Theory를 이용한 Si (001) 표면 위의 In 나노선 성장 연구
Indium Nanowire Growth on Si (001) Surface Using Density Functional Theory
E-mail:
Density functional theory was utilized to investigate the growth of an indium nanowire on a Si (001) buckled surface. A site between the edge of two Si dimers is most favorable when the first In atom is adsorbed on the surface at an adsorption energy level of 2.26 eV. The energy barriers for migration from other sites to the most favorable site are low. When the second In atom is adsorbed next to the first In atom to form an In dimer perpendicular to the Si dimer row, the adsorption energy is the highest among all adsorption sites. The third In atom prefers either of the sites next to the In dimer along the In dimer direction. The fourth In atom exhibited the same tendency showed by the second atom. The second and fourth In adsorption energy levels are higher than the first and third levels as the In atoms consume the third valence electron by forming In dimers. Therefore, the In nanowire grows perpendicular to the Si dimer row on the Si (001) surface, as it satisfies the bonding of the three valence electrons of the In atoms.
  1. Kluth P, Zhao QT, Winnerl S, Lenk S, Mantl S, Appl. Phys. Lett., 79, 824 (2001)
  2. Nogami J, Liu BZ, Katkov MV, Ohbuchi C, Birge NO, Phys. Rev. B, 63, 233305 (2001)
  3. Tseng GY, Ellenbogen C, Science, 294, 1293 (2001)
  4. Kocan P, Jurczyszyn L, Sobotik P, Ost’adal I, Phys. Rev. B, 77, 113301 (2008)
  5. Nogami J, Baski AA, Quate CF, Phys. Rev. B, 44, 1415 (1991)
  6. Dong ZC, Fujita D, Nejoh H, Phys. Rev. B, 63, 115402 (2001)
  7. Ahn JR, Kang PG, Byun JH, Yeom HW, Phys. Rev. B, 77, 035401 (2008)
  8. Evans MMR, Nogami J, Phys. Rev. B, 59, 7644 (1999)
  9. Brocks G, Kelly PJ, Car R, Phys. Rev. Lett., 70, 2786 (1993)
  10. Kresse G, Hafner J, Phys. Rev. B, 47, 558 (1993)
  11. Kresse G, Furthuller J, Comput. Mat. Sci., 6, 15 (1996)
  12. Kresse G, Furthuller J, Phys. Rev. B, 54, 11169 (1996)
  13. Kresse G, Joubert D, Phys. Rev. B, 59, 1758 (1999)
  14. Vanderbilt D, Phys. Rev. B, 41, R7892 (1990)
  15. Wood DM, Zunger A, J. Phys. A, 18, 1343 (1985)
  16. Pulay P, Chem. Phys. Lett., 73, 393 (1980)
  17. Albao MA, Evans MMR, Nogami J, Zorn D, Gordon MS, Evans JW, Phys. Rev. B, 72, 035426 (2005)
  18. Momma K, Izumi F, J. Appl. Crystallogr., 41, 653 (2008)