Wang, Z. J., Kong, X., Huang, Y., Li, J., Bao, L., Cao, K., Hu, Y., Cai, J., Wang, L., Chen, H., Wu, Y., Zhang, Y., Pang, F., Cheng, Z., Babor, P., Kolibal, M., Liu, Z., Chen, Y., Zhang, Q., ... Willinger, M. G. (2024). Conversion of chirality to twisting via sequential one-dimensional and two-dimensional growth of graphene spirals. Nature Materials, 23(3), 331-338. https://doi.org/10.1038/s41563-023-01632-y
@article{226b2510647c47a79a1d5f770ed3f7d7,
title = "Conversion of chirality to twisting via sequential one-dimensional and two-dimensional growth of graphene spirals",
abstract = "The properties of two-dimensional (2D) van der Waals materials can be tuned through nanostructuring or controlled layer stacking, where interlayer hybridization induces exotic electronic states and transport phenomena. Here we describe a viable approach and underlying mechanism for the assisted self-assembly of twisted layer graphene. The process, which can be implemented in standard chemical vapour deposition growth, is best described by analogy to origami and kirigami with paper. It involves the controlled induction of wrinkle formation in single-layer graphene with subsequent wrinkle folding, tearing and re-growth. Inherent to the process is the formation of intertwined graphene spirals and conversion of the chiral angle of 1D wrinkles into a 2D twist angle of a 3D superlattice. The approach can be extended to other foldable 2D materials and facilitates the production of miniaturized electronic components, including capacitors, resistors, inductors and superconductors.",
author = "Wang, {Zhu Jun} and Xiao Kong and Yuan Huang and Jun Li and Lihong Bao and Kecheng Cao and Yuxiong Hu and Jun Cai and Lifen Wang and Hui Chen and Yueshen Wu and Yiwen Zhang and Fei Pang and Zhihai Cheng and Petr Babor and Miroslav Kolibal and Zhongkai Liu and Yulin Chen and Qiang Zhang and Yi Cui and Kaihui Liu and Haitao Yang and Xinhe Bao and Gao, {Hong Jun} and Zhi Liu and Wei Ji and Feng Ding and Willinger, {Marc Georg}",
note = "Publisher Copyright: {\textcopyright} The Author(s), under exclusive licence to Springer Nature Limited 2023.",
year = "2024",
month = mar,
doi = "10.1038/s41563-023-01632-y",
language = "English",
volume = "23",
pages = "331--338",
journal = "Nature Materials",
issn = "1476-1122",
publisher = "Nature Publishing Group",
number = "3",
}
Wang, ZJ, Kong, X, Huang, Y, Li, J, Bao, L, Cao, K, Hu, Y, Cai, J, Wang, L, Chen, H, Wu, Y, Zhang, Y, Pang, F, Cheng, Z, Babor, P, Kolibal, M, Liu, Z, Chen, Y, Zhang, Q, Cui, Y, Liu, K, Yang, H, Bao, X, Gao, HJ, Liu, Z, Ji, W, Ding, F & Willinger, MG 2024, 'Conversion of chirality to twisting via sequential one-dimensional and two-dimensional growth of graphene spirals', Nature Materials, vol. 23, no. 3, pp. 331-338. https://doi.org/10.1038/s41563-023-01632-y
TY - JOUR
T1 - Conversion of chirality to twisting via sequential one-dimensional and two-dimensional growth of graphene spirals
AU - Wang, Zhu Jun
AU - Kong, Xiao
AU - Huang, Yuan
AU - Li, Jun
AU - Bao, Lihong
AU - Cao, Kecheng
AU - Hu, Yuxiong
AU - Cai, Jun
AU - Wang, Lifen
AU - Chen, Hui
AU - Wu, Yueshen
AU - Zhang, Yiwen
AU - Pang, Fei
AU - Cheng, Zhihai
AU - Babor, Petr
AU - Kolibal, Miroslav
AU - Liu, Zhongkai
AU - Chen, Yulin
AU - Zhang, Qiang
AU - Cui, Yi
AU - Liu, Kaihui
AU - Yang, Haitao
AU - Bao, Xinhe
AU - Gao, Hong Jun
AU - Liu, Zhi
AU - Ji, Wei
AU - Ding, Feng
AU - Willinger, Marc Georg
N1 - Publisher Copyright:
© The Author(s), under exclusive licence to Springer Nature Limited 2023.
PY - 2024/3
Y1 - 2024/3
N2 - The properties of two-dimensional (2D) van der Waals materials can be tuned through nanostructuring or controlled layer stacking, where interlayer hybridization induces exotic electronic states and transport phenomena. Here we describe a viable approach and underlying mechanism for the assisted self-assembly of twisted layer graphene. The process, which can be implemented in standard chemical vapour deposition growth, is best described by analogy to origami and kirigami with paper. It involves the controlled induction of wrinkle formation in single-layer graphene with subsequent wrinkle folding, tearing and re-growth. Inherent to the process is the formation of intertwined graphene spirals and conversion of the chiral angle of 1D wrinkles into a 2D twist angle of a 3D superlattice. The approach can be extended to other foldable 2D materials and facilitates the production of miniaturized electronic components, including capacitors, resistors, inductors and superconductors.
AB - The properties of two-dimensional (2D) van der Waals materials can be tuned through nanostructuring or controlled layer stacking, where interlayer hybridization induces exotic electronic states and transport phenomena. Here we describe a viable approach and underlying mechanism for the assisted self-assembly of twisted layer graphene. The process, which can be implemented in standard chemical vapour deposition growth, is best described by analogy to origami and kirigami with paper. It involves the controlled induction of wrinkle formation in single-layer graphene with subsequent wrinkle folding, tearing and re-growth. Inherent to the process is the formation of intertwined graphene spirals and conversion of the chiral angle of 1D wrinkles into a 2D twist angle of a 3D superlattice. The approach can be extended to other foldable 2D materials and facilitates the production of miniaturized electronic components, including capacitors, resistors, inductors and superconductors.
UR - http://www.scopus.com/inward/record.url?scp=85166583238&partnerID=8YFLogxK
U2 - 10.1038/s41563-023-01632-y
DO - 10.1038/s41563-023-01632-y
M3 - Article
C2 - 37537355
AN - SCOPUS:85166583238
SN - 1476-1122
VL - 23
SP - 331
EP - 338
JO - Nature Materials
JF - Nature Materials
IS - 3
ER -
Wang ZJ, Kong X, Huang Y, Li J, Bao L, Cao K et al. Conversion of chirality to twisting via sequential one-dimensional and two-dimensional growth of graphene spirals. Nature Materials. 2024 Mar;23(3):331-338. doi: 10.1038/s41563-023-01632-y
