Journal
JOURNAL OF MATERIALS CHEMISTRY A
Volume 9, Issue 10, Pages 6261-6273Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/d0ta11667j
Keywords
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Funding
- Kingboard Endowed Professorship in Materials Engineering
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The study demonstrates the electrochemical actuation properties of c-disordered delta-MnO2 and its outstanding performance in Na2SO4. An electrochemo-mechanical model quantitatively describes the intrinsic actuation properties and bending motion of the actuator, showing the high potential of delta-MnO2 as a strong artificial muscle material for miniaturized actuating devices.
Electrochemical actuating materials that can generate mechanical motions in response to low voltage stimuli are useful as artificial muscles in micro- or insect-scale robots. However, such materials tend to have small actuation strain and stress, slow actuation response rate, and poor motion controllability, and they often require alkaline electrolytes to operate. Here, we demonstrate and analyse the electrochemical actuation properties of c-disordered delta-MnO2 due to a volume-changing pseudo-capacitive redox reaction, with outstanding actuation performance and maneuverability in the neutral electrolyte of Na2SO4. An electrochemo-mechanical model well describes quantitatively the intrinsic actuation properties of delta-MnO2 and the bending motion of bilayered cantilever actuators comprising an active layer of delta-MnO2 supported by a Ni thin-film substrate. Upon changing the potential between -0.2 and 0.8 V vs. SCE in Na2SO4, delta-MnO2 exhibits an electrochemical driving force of (5.39 +/- 0.40) x 10(-23) J and activation volume of (6.26 +/- 0.40) x 10(-31) m(3) for the actuation at 298 K, and a maximum strain of 1.28%, an actuation stress of 71.5 MPa, and a maximum energy density of 2.76 MJ m(-3), indicating its high potential to be utilized as a strong artificial muscle material in multi-functional miniaturized actuating devices.
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