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Superhydrophobic states of 2D nanomaterials controlled by atomic defects can modulate cell adhesion.


ABSTRACT: We introduced a new concept to the control of wetting characteristics by modulating the degree of atomic defects of two-dimensional transition metal dichalcogenide nanoassemblies of molybdenum disulfide. This work shed new light on the role of atomic vacancies on wetting characteristic that can be leveraged to develop a new class of superhydrophobic surfaces for various applications without altering their topography.

SUBMITTER: Jaiswal MK 

PROVIDER: S-EPMC7004258 | biostudies-literature | 2019 Jul

REPOSITORIES: biostudies-literature

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Superhydrophobic states of 2D nanomaterials controlled by atomic defects can modulate cell adhesion.

Jaiswal Manish K MK   Singh Kanwar Abhay KA   Lokhande Giriraj G   Gaharwar Akhilesh K AK  

Chemical communications (Cambridge, England) 20190701 60


We introduced a new concept to the control of wetting characteristics by modulating the degree of atomic defects of two-dimensional transition metal dichalcogenide nanoassemblies of molybdenum disulfide. This work shed new light on the role of atomic vacancies on wetting characteristic that can be leveraged to develop a new class of superhydrophobic surfaces for various applications without altering their topography. ...[more]

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