Designer Bio-inspired Hydrogels : A Key to Biomedical Challenges-Reference-Cited by-同舟云学术

Designer Bio-inspired Hydrogels : A Key to Biomedical Challenges

Published:2024-02-29 Issue: Volume: Page:61-91
ISSN:
Container-title:Bioderived Materials: Harnessing Nature for Advanced Biochemical Handiwork
language:
Short-container-title:

Author:

Khan Naureen¹,Shivhare Vaibhav¹,Ahuja Rishabh¹,Dutt Konar Anita²

Affiliation:

1. Department of Applied Chemistry, Rajiv Gandhi Technological University, Bhopal-462033, Madhya Pradesh; India

2. Department of Applied Chemistry, School of Pharmaceutical Sciences, Rajiv Gandhi Technological University, Bhopal, India

Abstract

Low molecular weight hydrogelators (LMOHGs) are extremely promising synthons, in the bottom-up fabrication of supramolecular soft materials. In recent years, significant contributions to Peptide-based hydrogels coined as Bioinspired fragments have been made. In this book chapter, our effort lies to module two different aspects: Firstly the underlying guidelines and principles for the tailoring of scaffolds that would lead to hydrogel formation and an overview of the role of non-covalent interactions/chemical functionalization that are the key components of various selfassembly processes. In the second section, we aim to bring together our recent achievements with designer assembly with respect to their self-aggregation behavior and applications mainly in the biomedical arena like drug delivery carrier design, antimicrobial, anti-inflammatory as well as wound healing properties. We anticipate that this article would provide a conceptual demonstration of the different approaches taken toward the construction of these task-specific designer hydrogels.<br>

Publisher

BENTHAM SCIENCE PUBLISHERS

Reference70 articles.

1. Mondal S.; Das S.; Nandi A.K.; A review on recent advances in polymer and peptide hydrogels. Soft Matter 2020,16(6),1404-1454

2. Shukla A.; Singh A.P.; Dubey T.; Hemalatha S.; Maiti P.; Third generation cyclodextrin graft with polyurethane embedded in hydrogel for a sustained drug release: complete shrinkage of melanoma. ACS Appl Bio Mater 2019,2(4),1762-1771

3. Chakraborty P.; Das S.; Nandi A.K.; Conducting gels: A chronicle of technological advances. Prog Polym Sci 2019,88,189-219

4. Babu S.S.; Praveen V.K.; Ajayaghosh A.; Functional π-gelators and their applications. Chem Rev 2014,114(4),1973-2129

5. Du X.; Zhou J.; Shi J.; Xu B.; Supramolecular hydrogelators and hydrogels: from soft matter to molecular biomaterials. Chem Rev 2015,115(24),13165-13307