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- Title
Elasto‐Capillary Manipulation of Freestanding Inorganic Nanosheets: An Implication for Nano‐Manufacturing of Low‐Dimensional Structures (Adv. Mater. Interfaces 20/2022).
- Authors
Park, Minhyuk; Li, Dapeng; Wang, Tianyu; Zhou, Binbin; Li, Yang Yang; Zou, Deng; Chan, Paddy K. L.; Yang, Yong
- Abstract
Elasto-Capillary Manipulation of Freestanding Inorganic Nanosheets: An Implication for Nano-Manufacturing of Low-Dimensional Structures (Adv. Keywords: capillary force; capillary transfer method; freestanding nanosheets; micro-manufacturing; ultrathin inorganic nanosheets EN capillary force capillary transfer method freestanding nanosheets micro-manufacturing ultrathin inorganic nanosheets 1 1 1 07/14/22 20220712 NES 220712 B Elasto-Capillary Unfolding b In article number 2200355, Minhyuk Park, Yong Yang, and co-workers report the development of an elasto-capillary unfolding approach to manipulate ultrathin inorganic nanomaterials, which are fabricated by the polymer surface buckling enabled exfoliation method through tuning the surface tension of a liquid. Capillary force, capillary transfer method, freestanding nanosheets, micro-manufacturing, ultrathin inorganic nanosheets.
- Subjects
MICROFABRICATION
- Publication
Advanced Materials Interfaces, 2022, Vol 9, Issue 20, p1
- ISSN
2196-7350
- Publication type
Article
- DOI
10.1002/admi.202270114