※ 您的位置:首页  科技研讨  研讨成果
基于有机分子晶体的鲁棒热弹性微驱动器
--- 徐加良导员课题组 ---
作文题目:Robust thermoelastic microactuator based on an organic molecular crystal
作文编辑:Yulong Duan, Sergey Semin, Paul Tinnemans, Herma Cuppen, Jialiang Xu* & Theo Rasing*

发表期刊:《Nature Communications》 volume 10, Article number: 4573 (2019)   


摘要: Mechanically responsive molecular crystals that reversibly change shape triggered by external stimuli are invaluable for the design of actuators for soft robotics, artificial muscles and microfluidic devices. However, their strong deformations usually lead to their destruction. We report a fluorenone derivative (4-DBpFO) showing a strong shear deformation upon heating due to a structural phase transition which is reproducible after more than hundred heating/cooling cycles. Molecular dynamic simulations show that the transition occurs through a nucleation-and-growth mechanism, triggered by thermally induced rotations of the phenyl rings, leading to a rearrangement of the molecular configuration. The applicability as actuator is demonstrated by displacing a micron-sized glass bead over a large distance, delivering a kinetic energy of more than 65 pJ, corresponding to a work density of 270 J/kg.This material can serve as a prototype structure to direct the development of new types of robust molecular actuators.



XML 地图 | Sitemap 地图