Abstract
Additive interface materials for improved ionic polymer metal composite (IPMC) actuator performance are being investigated. In this study, three-dimensional carbon nanostructure/copper nanowire (3DC Cu-NW) with a novel structure was synthesized via low-pressure chemical vapor deposition. An IPMC actuator with a 3DC Cu-NW interface layer was fabricated, which exhibited improved actuation performance, long-term stability, and electrochemical properties. The proposed 3DC consists of carbon nanotubes (CNTs) and graphene, grown using an Fe catalyst and CH4 gas, respectively. We optimized the growth conditions (Fe catalyst: 12.5 mg/L, CH4: 20 sccm) to achieve a 3DC with an appropriate thickness and a large specific surface area. The 3DC Cu-NW benefited from a Cu oxidation prevention property and a large specific surface area. The electrochemical properties and actuation performance of the IPMC actuator improved with an increased 3DC Cu-NW concentration. An IPMC actuator with a 0.6 wt% 3DC Cu-NW interface layer exhibited 1.3- and 5.6-fold electrochemical property and actuation performance improvement, respectively, over an IPMC actuator with no 3DC Cu-NW interface layer. These results show that the proposed 3DC Cu-NW has potential as an IPMC actuator interface material, and that 3DC Cu-NW synthesis and application technology can be applied to future research on sensor, actuator, and flexible devices.
Highlights
Compared to traditional machine actuators, smart actuators have advantages such as miniaturization and simplification of structure
Piezoelectrics, ferroelectrics, shape memory alloys and electroactive polymers were activated by transforming electrical energy into mechanical energy [1,2,3,4] and MoS2, graphene, and graphene nanoplatelet-based polymer actuators have a mechanism that operates by transforming light energy into mechanical energy [5,6,7]
The electrochemical properties of the ionic polymer metal composite (IPMC) actuator with the 3DC Cu-NW interface layer are increased by 3DC Cu-NW with a large specific surface area, and its actuation performance is enhanced with increased 3DC Cu-NW concentration
Summary
Compared to traditional machine actuators, smart actuators have advantages such as miniaturization and simplification of structure. Many researchers [12,13,14,15,16,17,18] have investigated various additives for Nafion, which is widely used in ion exchange polymers and interface layers because of features such as its chemical stability, commercial availability, thermal stability, and high proton conductivity Metallic materials such as Pt, Au, and TiO2 nanoparticles, as well as carbon materials such as carbon nanotubes (CNTs) and graphene, have been used as additives [12,13,14,15,16,17,18]. The electrochemical properties of the IPMC actuator with the 3DC Cu-NW interface layer are increased by 3DC Cu-NW with a large specific surface area, and its actuation performance is enhanced with increased 3DC Cu-NW concentration
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