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SiX2 (X = S, Se) Single Chains and (Si-Ge)X2 Quaternary Alloys

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Title
SiX<sub>2</sub> (X = S, Se) Single Chains and (Si-Ge)X<sub>2</sub> Quaternary Alloys
Author(s)
Yangjin Lee; Young Woo Choi; Linxuan Li; Wu Zhou; Marvin L. Cohen; Kwanpyo Kim; Alex Zettl
Publication Date
2024-07
Journal
ACS Nano, v.18, no.27, pp.17882 - 17889
Publisher
American Chemical Society
Abstract
Layered or chain materials have received significant research attention owing to their interesting physical properties, which can dramatically change when the material is thinned from bulk (three-dimensional) to thin two-dimensional sheet or one-dimensional (1D) chain form. Materials with the stoichiometry AX(2) with A = Si or Ge and X = S or Se form an especially intriguing semiconducting class. For example, bulk silicon dichalcogenides (SiX2) consist of 1D chains held together by van der Waals forces. Although this structural configuration has the potential to reveal interesting physical phenomena within the 1D limit, obtaining SiX2 single chains has been challenging. We here examine experimentally and theoretically SiX2 materials in the low chain number limit. Carbon nanotubes serve as growth templates and stabilize and protect the structures, and atomic-resolution scanning transmission electron microscopy directly identifies the atomic structure. Two distinct chain structures are observed for SiX2. SixGe1-xS2(1-y)Se2y quaternary alloy chains are also synthesized and characterized, demonstrating tunable semiconducting properties at the atomic-chain level. Density functional theory calculations reveal that the band gap of these alloy chains can be widely tuned through composition engineering. This work offers the possibilities for synthesizing and controlling semiconductor compositions at the single-chain limit to tailor material properties.
URI
https://pr.ibs.re.kr/handle/8788114/15389
DOI
10.1021/acsnano.4c04184
ISSN
1936-0851
Appears in Collections:
Center for Nanomedicine (나노의학 연구단) > 1. Journal Papers (저널논문)
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