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Published in 2024 at "Advanced Functional Materials"
DOI: 10.1002/adfm.202402815
Abstract: Flexible and stretchable ion‐conductive elastomers have shown promising applications in wearable flexible sensor devices, biopotential detection, electroluminescent devices, and other areas. However, the currently employed gel‐based ion‐conductive materials encounter issues such as solvent volatilization or…
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Keywords:
state ion;
ion conductive;
ion;
conductive elastomer ... See more keywords
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Published in 2025 at "Advanced Functional Materials"
DOI: 10.1002/adfm.202520267
Abstract: Solid‐state ion‐conductive elastomers, vital components of flexible electronics, face challenges in simultaneously improving mechanical robustness and ionic conductivity. Inspired by cartilage architecture, this study proposes a synergistic strategy combining multi‐crosslinking and fluorine effects. A solid‐state…
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Keywords:
conductive elastomer;
state;
solid state;
pressure sensor ... See more keywords
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Published in 2019 at "Advanced materials"
DOI: 10.1002/adma.201906460
Abstract: For the development of wearable electronics, the replacement of rigid, metallic components with fully elastomeric materials is crucial. However, current elastomeric electrodes suffer from low electrical conductivity and poor electrical stability. Herein, a metal-like conductive…
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Keywords:
like conductive;
wrinkled structure;
conductive elastomer;
hierarchical wrinkled ... See more keywords
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Published in 2024 at "Small"
DOI: 10.1002/smll.202402265
Abstract: The emerging applications of thermally conductive elastomer composites in modern electronic devices for heat dissipation require them to maintain both high toughness and resilience under thermomechanical stresses. However, such a combination of thermal conductivity and…
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Keywords:
thermally conductive;
toughness;
elastomer;
conductive elastomer ... See more keywords
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Published in 2022 at "Nano letters"
DOI: 10.1021/acs.nanolett.2c03173
Abstract: Softness, adhesion, stretchability, and fast recovery from large deformations are essential properties for conductive elastomers that play an important role in the development of high-performance soft electronics. However, it remains an ongoing challenge to obtain…
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Keywords:
silicone conductive;
extremely soft;
adhesive silicone;
conductive elastomer ... See more keywords
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Published in 2022 at "ACS applied materials & interfaces"
DOI: 10.1021/acsami.2c14394
Abstract: Ionically conductive elastomers are necessary for realizing human-machine interfaces, bioelectronic applications, or durable wearable sensors. Current design strategies, however, often suffer from solvent leakage and evaporation, or from poor mechanical properties. Here, we report a…
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Keywords:
solvent leakage;
self healing;
healing conductive;
tough self ... See more keywords
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Published in 2019 at "Biomaterials science"
DOI: 10.1039/c8bm01235k
Abstract: Flexible polymeric bioelectronics have the potential to address the limitations of metallic electrode arrays by minimizing the mechanical mismatch at the device-tissue interface for neuroprosthetic applications. This work demonstrates the straightforward fabrication of fully organic…
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Keywords:
composites fully;
pedot;
conductive elastomer;
pedot pss ... See more keywords