Flow-Assisted 2D Polymorph Selection: Stabilizing Metastable Monolayers at the Liquid–Solid Interface | Zendy

ShernLong Lee | Zendy; Zhongyi Yuan | Zendy; Long Chen | Zendy; Kunal S. Mali | Zendy; Kläus Müllen | Zendy; Steven De Feyter | Zendy

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Flow-Assisted 2D Polymorph Selection: Stabilizing Metastable Monolayers at the Liquid–Solid Interface

Author(s) -

ShernLong Lee,

Zhongyi Yuan,

Long Chen,

Kunal S. Mali,

Kläus Müllen,

Steven De Feyter

Publication year - 2014

Publication title -

journal of the american chemical society

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 7.115

H-Index - 612

eISSN - 1520-5126

pISSN - 0002-7863

DOI - 10.1021/ja503466p

Subject(s) - metastability , chemistry , monolayer , polymorphism (computer science) , chemical physics , flow (mathematics) , crystallography , solvent , nanotechnology , organic chemistry , mechanics , materials science , biochemistry , physics , genotype , gene

Controlling crystal polymorphism constitutes a formidable challenge in contemporary chemistry. Two-dimensional (2D) crystals often provide model systems to decipher the complications in 3D crystals. In this contribution, we explore a unique way of governing 2D polymorphism at the organic liquid-solid interface. We demonstrate that a directional solvent flow could be used to stabilize crystalline monolayers of a metastable polymorph. Furthermore, flow fields active within the applied flow generate millimeter-sized domains of either polymorph in a controlled and reproducible fashion.

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