Building Artificial Crystals by Twisting One Atomic Layer at a Time
- Title
- Building Artificial Crystals by Twisting One Atomic Layer at a Time
- Authors
- KIM, CHEOL JOO
- Date Issued
- 2020-01-13
- Publisher
- 나노구조 물리 연구단
- Abstract
- Stacking of atomically thin layers provides the interlayer rotational degree of freedom, with which programmed atomic-scale architectures with twisted interfaces can be formed. Many interesting properties have emerged from the structures, ranging from superconductivity to chiro-optical properties [1]. Yet, the demonstrations remain at the small lateral size with limited number of layers, hindering direct applications and further structural engineering. Here, we report large-scale, layer-by-layer assembly of graphene films to produce atomically pristine interfaces with precisely controlled interlayer rotational angles [2]. As-grown graphene films on Ge(110) with weak surface adhesions [3] are physically picked up one-by-one in a clean, dry environment. As results, inch-scale films composed of more than 10 layers of graphene are fabricated with controlled interfaces, offering a novel structural ordering such as helicity with screw-like atomic arrangements. The approach will be useful for building various artificial crystals, and lead to the discoveries of novel electrical and optical properties.
References
[1] C.-J. Kim et al., Nat. Nanotechnol. 11, 520−524 (2016).
[2] S.-J. Yang et al., Nano Lett. 19, 3590–3596 (2019).
[3] S.-J. Yang et al. (in preparation).
- URI
- https://oasis.postech.ac.kr/handle/2014.oak/104258
- Article Type
- Conference
- Citation
- The 6th MUJU INTERNATIONAL Winter School Series, 2020-01-13
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