Carbon‐Nanotube‐Reinforced Polyaniline Fibers for High‐Strength Artificial Muscles
Geoffrey M. SpinksVahid MottaghitalabMehrdad Bahrami‐SamaniPhilip G. WhittenGordon G. Wallace
Abstract
Carbon-nanotube-reinforced polyaniline fibers (see Figure) possess improved breaking strength and higher operating stress levels than neat polyaniline, potentially allowing generation of larger stresses by electrochemical actuators containing these fibers. The fibers have tensile strengths of 255 MPa and operate to stress levels in excess of 100 MPa, three times higher than previously reported for conducting-polymer actuators.
Metrics
Citation History
Topics
Related Documents
High-performance carbon nanotube/polyaniline artificial yarn muscles working in biocompatible environments
Jian QiaoYulong WuChangfeng ZhuLizhong DongKunjie WuYulian WangWei YangMin LiJiangtao DiQingwen Li
Torsional Carbon Nanotube Artificial Muscles
Javad ForoughiGeoffrey M. SpinksGordon G. WallaceJiyoung OhMikhail E. KozlovShaoli FangTissaphern MirfakhraiJohn D. W. MaddenMin Kyoon ShinSeon Jeong KimRay H. Baughman
Coiled Carbon Nanotube Fibers Sheathed by a Reinforced Liquid Crystal Elastomer for Strong and Programmable Artificial Muscles
Guang YangLizhong DongMing RenBo CuiXiaojie YuanXiaobo WangYuxin LiWei LiGuanlong QiaoYunfeng ShaoWeiwei LiXiaona WangPanpan XuHongbin FangJiangtao DiQingwen Li
Kinetic Modulationof Carbon Nanotube Growth in DirectSpinning for High-Strength Carbon Nanotube Fibers
Zuncheng Hu (18342633)Xiucai Sun (5979650)Xinshi Zhang (381701)Xiangzheng Jia (9942676)Xueting Feng (4723359)Mingwei Cui (18342636)Enlai Gao (2882204)Liu Qian (95587)Xin Gao (14001)Jin Zhang (53297)
Tuning Array Morphology for High‐Strength Carbon‐Nanotube Fibers
Lianxi ZhengGengzhi SunZhaoyao Zhan