Determining the Electronic Performance Limitations in Top-Down-Fabricated Si Nanowires with Mean Widths Down to 4 nm | Zendy

Muhammad Mirza | Zendy; Donald A. MacLaren | Zendy; Antonio Samarelli | Zendy; B. M. Holmes | Zendy; Haiping Zhou | Zendy; S. Thoms | Zendy; D.S. Macintyre | Zendy; Douglas J. Paul | Zendy

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Determining the Electronic Performance Limitations in Top-Down-Fabricated Si Nanowires with Mean Widths Down to 4 nm

Author(s) -

Muhammad Mirza,

Donald A. MacLaren,

Antonio Samarelli,

B. M. Holmes,

Haiping Zhou,

S. Thoms,

D.S. Macintyre,

Douglas J. Paul

Publication year - 2014

Publication title -

nano letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 4.853

H-Index - 488

eISSN - 1530-6992

pISSN - 1530-6984

DOI - 10.1021/nl5015298

Subject(s) - nanowire , passivation , materials science , etching (microfabrication) , scattering , impurity , optoelectronics , silicon , lithography , nanotechnology , layer (electronics) , chemistry , optics , physics , organic chemistry

Silicon nanowires have been patterned with mean widths down to 4 nm using top-down lithography and dry etching. Performance-limiting scattering processes have been measured directly which provide new insight into the electronic conduction mechanisms within the nanowires. Results demonstrate a transition from 3-dimensional (3D) to 2D and then 1D as the nanowire mean widths are reduced from 12 to 4 nm. The importance of high quality surface passivation is demonstrated by a lack of significant donor deactivation, resulting in neutral impurity scattering ultimately limiting the electronic performance. The results indicate the important parameters requiring optimization when fabricating nanowires with atomic dimensions.

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