4.7 Article

Recent advances in shape memory superhydrophobic surfaces: Concepts, mechanism, classification, applications and challenges

Journal

POLYMER
Volume 256, Issue -, Pages -

Publisher

ELSEVIER SCI LTD
DOI: 10.1016/j.polymer.2022.125193

Keywords

Superhydrophobic; Shape memory polymer; Shape memory effect; Wettability; Applications

Funding

  1. National Natural Science Foundation of China [52073127]
  2. Natural Science Foundation of Jiangsu Province [BK20191478, BK20191039]
  3. Changzhou Sci Tech Program [CZ20190020, CM20193004]

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Smart control of surface wettability, especially for superhydrophobic surfaces, has gained widespread attention. Shape memory superhydrophobic surfaces, based on the shape memory effect of shape memory polymers (SMPs), can intelligently control surface topographies and wettability, and have shown great potential for extensive applications. This review summarizes recent achievements and applications of shape memory superhydrophobic surfaces, introduces the research background, concepts, and significance, reveals the fundamental wetting theory and models, evaluation of shape memory effect, and mechanism. It also reviews recent advances in magnetic, photo, electrical, thermo, and chemical-induced shape memory superhydrophobic surfaces, and summarizes the major representative applications including wettability control, droplet manipulation, self-healing, and other smart applications. Finally, the future research directions and perspectives are discussed.
Smart control of surface wettability has attracted widespread attention, especially for superhydrophobic surfaces. Based on the shape memory effect (SME) of the shape memory polymers (SMPs), shape memory superhydrophobic surfaces can intelligently control the surface topographies and wettability and have motivated great interest for extensive application prospects. Here, recent achievements and corresponding applications of shape memory superhydrophobic surfaces were reviewed. The research background, concepts and significance were firstly introduced. Following, the fundamental wetting theory and models, evaluation of SME and mechanism was revealed. Then recent advances including of magnetic, photo, electrical, thermo and chemical-induced shape memory superhydrophobic surfaces were reviewed with an advanced perspective. Subsequently, the major representative applications including wettability control, droplet manipulation, self-healing and other smart applications were summarized. Finally, the problems and perspectives on future research directions were proposed. It is wished that this review can inspire the development of shape memory superhydrophobic surfaces for its following realistic applications.

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