Self-healing, anti-freezing and highly stretchable polyurethane ionogel as ionic skin for wireless strain sensing
Published 2021 View Full Article
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Title
Self-healing, anti-freezing and highly stretchable polyurethane ionogel as ionic skin for wireless strain sensing
Authors
Keywords
Polyurethane ionogel, Anti-freezing, Self-heal, Wireless strain sensor
Journal
CHEMICAL ENGINEERING JOURNAL
Volume 426, Issue -, Pages 130724
Publisher
Elsevier BV
Online
2021-06-10
DOI
10.1016/j.cej.2021.130724
References
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- Mechanically and biologically skin-like elastomers for bio-integrated electronics
- (2020) Shuo Chen et al. Nature Communications
- Transparent Stretchable Dual-Network Ionogel with Temperature Tolerance for High-Performance Flexible Strain Sensors
- (2020) Ji Lan et al. ACS Applied Materials & Interfaces
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- (2020) Shunsuke Yamada et al. ACS Applied Materials & Interfaces
- Mechanically Robust, Elastic, and Healable Ionogels for Highly Sensitive Ultra‐Durable Ionic Skins
- (2020) Tianqi Li et al. ADVANCED MATERIALS
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- (2020) Zhihao Zhou et al. Nature Electronics
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- (2020) Yuanlai Fang et al. ADVANCED FUNCTIONAL MATERIALS
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- (2020) Yuan Ma et al. CHEMISTRY OF MATERIALS
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- Anti-freezing, resilient and tough hydrogels for sensitive and large-range strain and pressure sensors
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- Scalable thermoelectric fibers for multifunctional textile-electronics
- (2020) Tianpeng Ding et al. Nature Communications
- Multifunctional Skin-Inspired Flexible Sensor Systems for Wearable Electronics
- (2019) Kaichen Xu et al. Advanced Materials Technologies
- Development of conductive poly(vinylidene fluoride) (PVDF) nanocomposite membrane reinforced with ionic liquid (IL) & carbon nanofiber (CNF)
- (2019) Brijesh Prasad et al. COMPOSITES PART B-ENGINEERING
- Monolithic 3D-Printing of embeddable and highly stretchable strain sensors using conductive ionogels
- (2019) Michael R Crump et al. NANOTECHNOLOGY
- Flexible and Washable Poly(Ionic Liquid) Nanofibrous Membrane with Moisture Proof Pressure Sensing for Real-Life Wearable Electronics
- (2019) Zehong Wang et al. ACS Applied Materials & Interfaces
- Polybutadiene Vitrimers Based on Dioxaborolane Chemistry and Dual Networks with Static and Dynamic Cross-links
- (2019) Antoine Breuillac et al. MACROMOLECULES
- Ionic liquid–based click-ionogels
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- 3D Printing Ionogel Auxetic Frameworks for Stretchable Sensors
- (2019) Jitkanya Wong et al. Advanced Materials Technologies
- Ionoskins: Nonvolatile, Highly Transparent, Ultrastretchable Ionic Sensory Platforms for Wearable Electronics
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- A bioinspired hydrogen bond-triggered ultrasensitive ionic mechanoreceptor skin
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- Carbon nanotubes reinforced hydrogel as flexible strain sensor with high stretchability and mechanically toughness
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- (2019) Yan Zhang et al. Advanced Materials Technologies
- A supramolecular biomimetic skin combining a wide spectrum of mechanical properties and multiple sensory capabilities
- (2018) Zhouyue Lei et al. Nature Communications
- MXenes stretch hydrogel sensor performance to new limits
- (2018) Yi-Zhou Zhang et al. Science Advances
- High-Performance Double-Network Ion Gels with Fast Thermal Healing Capability via Dynamic Covalent Bonds
- (2018) Zhehao Tang et al. CHEMISTRY OF MATERIALS
- “Liquid-in-Solid” and “Solid-in-Liquid” Electrolytes with High Rate Capacity and Long Cycling Life for Lithium-Ion Batteries
- (2016) Feng Wu et al. CHEMISTRY OF MATERIALS
- Self-Regulative Nanogelator Solid Electrolyte: A New Option to Improve the Safety of Lithium Battery
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- (2014) Jeong-Yun Sun et al. ADVANCED MATERIALS
- Silk-Molded Flexible, Ultrasensitive, and Highly Stable Electronic Skin for Monitoring Human Physiological Signals
- (2013) Xuewen Wang et al. ADVANCED MATERIALS
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