Supramolecular self-healing materials via host-guest strategy between cyclodextrin and specific types of guest molecules

The self-healing property increases the service life of materials by spontaneously repairing the cracks or fractures. The selection of the appropriate self-healing materials having a fast propagation rate and proper repairing mechanism is important in their high efficiency. Several factors such as time and rate of healing, time of storage, and healing efficiency (obtained from measuring the mechanical properties before and after healing) at the point of fracture have significant effects on the self-healing capability. In recent years, many researchers have focused on non-covalent interactions to fabricate self-healing materials. Among different non-covalent interactions, cyclodextrin-based host-guest (HG) interactions with different guest molecules that can fit inside the cyclodextrin (CD) cavity have attracted the attention of many researchers due to biocompatibility, ease of modification, availability, the capability of CD complex formation with different guest molecules, and the reversible nature of HG complexation. The purpose of the present paper is to review the different strategies of fabricating the HG supramolecular self-healable materials between beta-CD and various types of guest molecules such as ferrocene (Fc), adamantane (Ad), azobenzene (Azo), cholic acid (CA), N-vinylimidazole, bromonaphthalene, and other guest molecules. Comparing different strategies makes it possible to properly address the challenges of this field in the future. Each guest molecule which is placed inside the cyclodextrin cavity provides unique properties in the supramolecular self-healable materials. For example, adamantane, ferrocene, azobenzene, and cholic acid, respectively, lead to high stability, electrochemical-sensitivity, lightsensitivity, and biocompatibility of supramolecular self-healable materials. Moreover, different applications of beta-CD-based self-healable materials in stimuli-responsive systems, coating, 3D-printing, drug delivery, biomedical, and other applications are summarized in this paper. (C) 2020 Elsevier B.V. All rights reserved.

Automated summary

The article mainly discusses the different strategies of fabricating HG supramolecular self-healable materials using host-guest interactions between beta-CD and various guest molecules. Comparing different strategies helps to properly address the challenges of this field in the future.