仿生阻尼材料的设计、制备和应用进展

IF 5.4 1区化学 Q2 CHEMISTRY, MULTIDISCIPLINARY

GIANT Pub Date : 2024-07-10 DOI:10.1016/j.giant.2024.100321

Xuefan Gu , Ling Wang , Xin Guan , Yilin Wang , Yilong Cheng , Youshen Wu

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引用次数: 0

摘要

仿生阻尼材料能够模拟生物系统中观察到的特殊阻尼特性，因此已成为各种应用领域的理想候选材料。本综述全面概述了仿生物阻尼凝胶材料领域的最新进展。文章讨论了仿生物阻尼材料的概念框架，阐明了受生物原理启发的合成方法，并重点介绍了材料选择中的关键注意事项。综述了有关这些材料的机械性能、生物相容性和实际应用的最新研究成果，并对仿生物阻尼凝胶材料的未来发展方向提出了见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Advances in the design, preparation and application of biomimetic damping materials

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Advances in the design, preparation and application of biomimetic damping materials

Biomimetic damping materials have emerged as promising candidates for various applications due to their ability to mimic the exceptional damping properties observed in biological systems. This review provides a comprehensive overview of recent advances in the field of biomimetic damping gel materials. The conceptual framework of biomimetic damping materials is discussed, the synthesis methods inspired by biological principles are elucidated, and key considerations in material selection are highlighted. The latest research findings on the mechanical properties, biocompatibility and practical applications of these materials are synthesized and insights into the future directions of biomimetic damping gel materials are offered.

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来源期刊

GIANT Multiple-

CiteScore

8.50

自引率

8.60%

发文量

审稿时长

42 days

期刊介绍： Giant is an interdisciplinary title focusing on fundamental and applied macromolecular science spanning all chemistry, physics, biology, and materials aspects of the field in the broadest sense. Key areas covered include macromolecular chemistry, supramolecular assembly, multiscale and multifunctional materials, organic-inorganic hybrid materials, biophysics, biomimetics and surface science. Core topics range from developments in synthesis, characterisation and assembly towards creating uniformly sized precision macromolecules with tailored properties, to the design and assembly of nanostructured materials in multiple dimensions, and further to the study of smart or living designer materials with tuneable multiscale properties.