2017
DOI: 10.1073/pnas.1616377114
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High thermal conductivity in soft elastomers with elongated liquid metal inclusions

Abstract: Soft dielectric materials typically exhibit poor heat transfer properties due to the dynamics of phonon transport, which constrain thermal conductivity (k) to decrease monotonically with decreasing elastic modulus (E). This thermal−mechanical trade-off is limiting for wearable computing, soft robotics, and other emerging applications that require materials with both high thermal conductivity and low mechanical stiffness. Here, we overcome this constraint with an electrically insulating composite that exhibits … Show more

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Cited by 530 publications
(503 citation statements)
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“…Recent work has achieved SMA-powered locomotion, addressing this problem of overheating by precisely controlling the voltage applied to the SMA 52 (Fig. 2e), employing active cooling with water 53 or air 54 , or maximizing the heat dissipation by incorporating a thermally conductive soft elastomer 55 (Fig. 2f).…”
Section: Nature Electronicsmentioning
confidence: 99%
See 3 more Smart Citations
“…Recent work has achieved SMA-powered locomotion, addressing this problem of overheating by precisely controlling the voltage applied to the SMA 52 (Fig. 2e), employing active cooling with water 53 or air 54 , or maximizing the heat dissipation by incorporating a thermally conductive soft elastomer 55 (Fig. 2f).…”
Section: Nature Electronicsmentioning
confidence: 99%
“…Referring to Fig. 5, these include implementations that contain SMAs 54,55 (Fig. 5a,b), DEAs 63,68,117 (Fig.…”
Section: Systems-level Integrationmentioning
confidence: 99%
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“…LM particles with a high thermal conductivity (26.4 Wm −1 K −1 at 30 °C) can be used as soft materials to improve heat transfer capabilities. Bartlett et al prepared a soft‐matter composite in which LM microdroplets were dispersed in a highly deformable elastomer. When the sample of LM‐embedded elastomer (volume fraction of LM = 50%) was stretched to 600% strain and then relaxed to an unloaded state, the thermal conductivity of the LMEE sample in longitudinal direction ( k y ) was enhanced to 4.7 ± 0.2 Wm −1 K −1 , ≈25 times higher than that of the base polymer ( Figure a).…”
Section: Properties Of Micro/nano‐sized Liquid Metalmentioning
confidence: 99%