Tao Yu scite author profile

The development of covalent adaptable liquid crystal networks (LCNs) enabled by introducing dynamic covalent bonds has endowed liquid crystal actuators with self-healing properties and reversible shape programmability, broadening their applications in diverse soft robotic devices. However, the finite molecular design strategy limits the recyclability and the architectural diversity of these materials. Here, a strategy is first reported for fabricating photoresponsive polydisulfide-based covalent adaptable LCNs by ringopening polymerization of cyclic dithiolane groups. Based on the disulfide metathesis, the resulting materials are self-healable, reshapable, and reprogrammable. Importantly, the equilibrium between the polymer backbones and the dithiolane-functionalized monomers enables catalytic depolymerization to recycle monomers, which could significantly weaken the disadvantage of subtractive manufacturing of photomechanical devices. This work rooted in chemistry would provide an economical and environmentally friendly strategy for the fabrication of functional soft robotics with excellent programmability and renewability and beyond.

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Funds sharing regulation in the context of the sharing economy: Understanding the logic of China's P2P lending regulation

Shen

2019

Computer Law & Security Review

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R&D investment and financing efficiency in Chinese environmental protection enterprises: perspectives of COVID-19 and supply chain financial regulation

Sheng

et al. 2020

International Journal of Logistics Research and Applications

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Photocontrollable Elongation Actuation of Liquid Crystal Elastomer Films with Well‐Defined Crease Structures

Huang

Bisoyi

et al. 2023

Advanced Materials

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Although liquid crystal elastomers (LCEs) have demonstrated various applications in artificial muscles and soft robotics, their inherent flexibility and orientation‐dependent forces limit their functions. For instance, LCEs can sustain a high actuation force when they contract but cannot elongate to drive loads with large displacements. In this study, it is demonstrated that photocontrollable elongation actuation with a large strain can be achieved in polydomain LCEs by programming the crease structures in a well‐defined order to couple the actuation forces. Efficient photoactuation without overheating‐induced damage to the materials is favored, based on the well‐designed photosensitive molecular switch crosslinker via the synergy of photochemical and photothermal effects. The LCE actuator can jack up heavy loads, elongate freely, and contract back to manipulate distant objects. Theoretical analysis based on a finite element simulation of the deformation energy during the actuation process reveals a trade‐off between the abilities of jacking‐up and withstanding load. More importantly, this study simplifies the design of a single material with functions inherent only in other soft robotic devices based on the assembly of multiple modules, thus providing a design strategy for surpassing instinctive properties of conventional soft materials to expand the functions of soft robotics.

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TS-Benchmark: A Benchmark for Time Series Databases

Hao

Qin

Chen

et al. 2021

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Tao Yu

Covalent Adaptable Liquid Crystal Networks Enabled by Reversible Ring-Opening Cascades of Cyclic Disulfides

Funds sharing regulation in the context of the sharing economy: Understanding the logic of China's P2P lending regulation

R&D investment and financing efficiency in Chinese environmental protection enterprises: perspectives of COVID-19 and supply chain financial regulation

Photocontrollable Elongation Actuation of Liquid Crystal Elastomer Films with Well‐Defined Crease Structures

TS-Benchmark: A Benchmark for Time Series Databases

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