Magic structures of H-passivated \langle110 \rangle silicon nanowires

Tzu-Liang Chan; Cristian V. Ciobanu; Feng-Chuan Chuang; Ning Lu; Cai-Zhuang Wang; Kai-Ming Ho

Magic structures of H-passivated $\langle110 \rangle$ silicon nanowires

ORAL

Abstract

We report a genetic algorithm approach combined with ab initio calculations to determine the structure of hydrogenated $\langle 110\rangle$ Si nanowires. As the number of atoms per length increases, we find that the cross section of the nanowire evolves from chains of six-atom rings, to fused pairs of such chains, to hexagons bounded by \{001\} and \{111\} facets. Our calculations predict that hexagonal wires become stable starting at about 1.2 nm diameter, which is consistent with recent experimental reports of nanowires with diameters of about 3 nm.

March 13, 2006, 2:42 PM – March 13, 2006, 2:54 PM

Authors

Tzu-Liang Chan
- Ames Laboratory and Physics Department, Iowa State University
Cristian V. Ciobanu
- Colorado School of Mines
- Division of Engineering, Colorado School of Mines
Feng-Chuan Chuang
Ning Lu
Cai-Zhuang Wang
- Iowa State University
Kai-Ming Ho
- Iowa State University
- US. DOE Ames Laboratory and Physics Department, Iowa State University