空洞
发表于 2025-3-28 16:21:22
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混沌
发表于 2025-3-28 19:35:20
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CLOUT
发表于 2025-3-28 23:30:11
Self-Healing Hydrogels Based on Reversible Covalent Linkages: A Survey of Dynamic Chemical Bonds inhe main focus of the chapter is on the chemistry of cross-linking and the conditions under which self-healing was achieved, a brief discussion on the method utilized to ascertain the extent of self-healing through mechanical or rheological data, as well as possible applications of such materials, is explored.
ferment
发表于 2025-3-29 04:44:03
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碎石头
发表于 2025-3-29 08:26:12
Rheology, Rupture, Reinforcement and Reversibility: Computational Approaches for Dynamic Network Mad demonstrate their use in several physical models of novel polymer-based materials, including nanocomposites, toughened gels, double network elastomers, vitrimers, and reversibly cross-linked semiflexible biopolymers.
exorbitant
发表于 2025-3-29 12:24:14
Hydrophobically Associating Hydrogels with Microphase-Separated Morphologies,eviews the characteristics of these microphase-separated, hydrophobically associating hydrogels and discusses potential applications of these materials as injectable in situ forming hydrogels, electrospun fiber mats suitable for tissue scaffolds, controlled drug release, antifreeze materials, and shape memory hydrogels.
ELATE
发表于 2025-3-29 17:54:22
Dynamics in Cellulose-Based Hydrogels with Reversible Cross-Links,y for the fabrication of cellulose-based hydrogels through the formation of reversible dynamic covalent bonds or non-covalent interactions, respectively. Moreover, we provide the future outlook for the guidance of fruitful explorations of hydrogels based on cellulose and their derivatives to expand their further advancement.
畏缩
发表于 2025-3-29 23:15:08
Self-Healing Collagen-Based Hydrogel for Brain Injury Therapy,al cell attachment, axonal growth, and cell proliferation due to its intrinsic content of specific cell-signaling domains. This chapter summarizes the most relevant results obtained from both in vitro and in vivo studies using self-healing biohydrogels based on collagen type I as key component in the field of neuroregeneration.