Fig. 1: Evolutionary design of deep-sea soft machines. Full size image Bioinspired deep-sea soft machines Designing principles for soft actuation in the deep ocean Bioinspired deep-sea hydraulic soft actuation Fig. 2: Bioinspired deep-sea soft actuation. ...
Soft robots, capable of safe interaction with delicate objects through their flexibility and compliance, are attracting attention in various real-world applications as manipulators, biomedical devices and wearable tools. As these technologies advance, the ability to perform complex tasks in a robust and...
By using self-assembled lipids as the rigid bilayer and long-chain amphiphilic molecules linked to the hydrogel network as anchoring agents, the fluid mosaic structured ALIBC was fabricated successfully. Additionally, standby lipids were stored in the hydrogel matrix as aggregates to fill the cracks ...
Shape memory Polymer constructed by π–π stacking with ultrafast photoresponse and self-healing performance ACS Appl. Polym. Mater., 5 (4) (2023 Mar 6), pp. 2575-2582 CrossrefView in ScopusGoogle Scholar [36] N. Bertrand, J. Wu, X. Xu, N. Kamaly, O.C. Farokhzad Cancer nanotechnolo...
Overall, bioinspired materials take inspiration from nature's designs, such as the hierarchical structures of seashells or the self-healing properties of certain organisms. By mimicking these natural structures and functionalities, bioinspired materials strive to achieve enhanced performance, durability, and...
recognition, and gesture sensing. This work helps to lay the foundation for the development for the next-generation breathable self-powered electronic skins in the applications of AI, human–machine interaction, and soft robots.
instruments, demonstrating the feasibility of this method for application to complex surfaces. Other methods for strengthening slippery surfaces to maintain anti-adhesion capabilities have been developed by Aizenberg et al., as shown in Figure6(f), who developed stable, self-healing slippery liquid-...
self-growthinterfacial polymerizationsurface functionalizationlayered hydrogelTissue-inspired layered structural hydrogel has attracted increasing attention in artificial muscle, wound healing, wearable electronics, and soft robots. Despite numerous efforts being devoted to developing various layered hydrogels, the ...
Stretchable, self-healing, transient macromolecular elastomeric gel for wearable electronics. Microsyst. Nanoeng. 5, 9 (2019). Article Google Scholar Du, X. Reconfiguration, camouflage and color-shifting for bioinspired adaptive hydrogel-based millirobots. Adv. Funct. Mater. 30, 1909202 (2020). ...
Skin is also soft, tough, stretchable, and self-healable, which has attracted tremendous attention to mimic its structure and function in flexible electronics, smart materials, and wound healing. Particularly, the past decades have witnessed the rapid development of skin-inspired flexible electronics ...