Advanced Biomimetic and Biohybrid Magnetic Micro/Nano‐Machines

IF 6.4 3区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

Advanced Materials Technologies Pub Date : 2024-05-16 DOI:10.1002/admt.202400239

N. Murali, Shashank Bhushan Das, Satyam Yadav, Simran Kaur Rainu, Neetu Singh, Soutik Betal

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Abstract

Biomimetic and biohybrid micro/nano‐structures involve the replication and creation of technologies, structures, and materials based on biological systems at the micrometer and nanometer scale. These strategies harness the natural biological principles to develop innovative treatment methods and advanced microstructure devices for noninvasive therapies. In this study, a detailed overview of fabrication processes, magnetically assisted locomotive techniques, and potential applications of biomimetic and biohybrid micro/nano‐machines are presented. The latest advancements in magnetically actuated biomimetic structures, such as annelid‐worm‐like microswimmers, jellyfish‐shaped microparticles, fish‐shaped microswimmers, and walnut‐shaped micromotors are explored. Additionally, the magnetic biohybrid systems, including sunflower seed‐based micro‐perforators, nanomotors extracted from the bamboo stem, sperm cell‐based micromotors, bacteria‐based robots, scaffold‐based microrobots, DNA‐based micromotors, microalgae‐based microswimmers, and red blood cell‐based microswimmers are also examined. A thorough investigation of the magnetically assisted locomotive behavior of these microstructure devices in biological Newtonian fluids, featuring cork‐screw motion, undulatory motion, surface wrinkling motion, traveling wave‐like motion, and ciliary stroke motion is discussed. Furthermore, unprecedented and innovative treatment methods developed using these minuscule devices such as cervical cancer treatment using tetrapod hybrid sperm micromotors, tissue regeneration using silk fibroin protein‐based magnetic microscale scaffolds, and doxorubicin drug delivery using mushroom‐based microrobots is extensively presented.

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先进的仿生和生物杂交磁性微型/纳米机器

仿生和生物混合微/纳米结构涉及在微米和纳米尺度上复制和创造基于生物系统的技术、结构和材料。这些策略利用自然生物原理开发创新的治疗方法和先进的微结构设备，用于非侵入性治疗。本研究详细概述了生物仿生和生物混合微/纳米机械的制造工艺、磁助动力技术和潜在应用。本研究探讨了磁驱动生物仿生结构的最新进展，如环状蠕虫状微型潜水器、水母状微型颗粒、鱼形微型潜水器和核桃状微型马达。此外，还研究了磁性生物杂交系统，包括基于葵花籽的微型穿孔器、从竹茎中提取的纳米马达、基于精子细胞的微型马达、基于细菌的机器人、基于支架的微型机器人、基于 DNA 的微型马达、基于微藻类的微型游泳器和基于红细胞的微型游泳器。此外，还讨论了这些微结构装置在生物牛顿流体中的磁辅助运动行为，包括软木螺旋运动、起伏运动、表面起皱运动、行波状运动和纤毛冲程运动。此外，还广泛介绍了利用这些微小装置开发的前所未有的创新治疗方法，如利用四足混合精子微电机治疗宫颈癌、利用基于丝纤维蛋白的磁性微尺度支架进行组织再生，以及利用基于蘑菇的微机器人输送多柔比星药物。

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来源期刊

Advanced Materials Technologies Materials Science-General Materials Science

CiteScore

10.20

自引率

4.40%

发文量

566

期刊介绍： Advanced Materials Technologies Advanced Materials Technologies is the new home for all technology-related materials applications research, with particular focus on advanced device design, fabrication and integration, as well as new technologies based on novel materials. It bridges the gap between fundamental laboratory research and industry.

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