Mechanically Robust and Transparent Organohydrogel‐Based E‐Skin Nanoengineered from Natural Skin

Mechanically Robust and Transparent Organohydrogel‐Based E‐Skin Nanoengineered from Natural Skin

Electronic skins (e‐skins), which are mechanically compliant with human skin, are regarded as ideal electronic devices for noninvasive human–machine interaction and wearable devices. In order to fully mimic human skin, e‐skins should possess reliable mechanical properties and be able to resist exter...

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Bibliographic Details
Published in:Advanced functional materials Vol. 33; no. 15
Main Authors: Bai, Zhongxue, Wang, Xuechuan, Zheng, Manhui, Yue, Ouyang, Huang, Mengchen, Zou, Xiaoliang, Cui, Boqiang, Xie, Long, Dong, Shuyin, Shang, Jiaojiao, Gong, Guidong, Blocki, Anna M., Guo, Junling, Liu, Xinhua
Format: Journal Article
Language:English
Published: Hoboken Wiley Subscription Services, Inc 01-04-2023
Subjects:
Artificial intelligence
Biocompatibility
Electronic devices
electronic skin
Glycerol-Water
Heat resistance
Human motion
Humidity
Low temperature resistance
Materials science
Mechanical properties
mechanically robust
Moisture effects
Moisture resistance
multi‐functions
Nanoparticles
natural skin
organohydrogels
Robustness
Silver
Skin
Sodium chloride
Stimuli
Strain
Tensile strength
Thermal resistance
Wearable technology
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Summary:Electronic skins (e‐skins), which are mechanically compliant with human skin, are regarded as ideal electronic devices for noninvasive human–machine interaction and wearable devices. In order to fully mimic human skin, e‐skins should possess reliable mechanical properties and be able to resist external environmental factors like heat, cold, desiccation, and bacteria, while perceiving multiple external stimuli, such as temperature, humidity, and strain. Here, a transparent, mechanically robust, environmentally stable, versatile natural skin‐derived organohydrogel (NSD‐Gel) is nanoengineered through the integration of betaine, silver nanoparticles, and sodium chloride in a glycerol/water binary solvent. The transparent NSD‐Gel e‐skin exhibits outstanding tensile strength (7.33 MPa), puncture resistance, moisture retention, self‐regeneration, and antibacterial properties. Additionally, the NSD‐Gel e‐skin possesses enhanced cold/heat resistance and stimuli‐responsive characteristics that effectively sense environmental temperature and humidity changes, as well as physiological human body motion signals. In vitro and in vivo experiments show that the NSD‐Gel e‐skin confers desired biocompatibility and tissue protective properties even in extremely harsh environments (−196 °C to 100 °C). The NSD‐Gel e‐skin has great potential for applications in multidimensional wearable electronic devices, human‐machine interfaces, and artificial intelligence, generating a versatile platform for the development of high‐performance e‐skins with on‐demand properties. A transparent, mechanically robust, environmentally stable, versatile organohydrogel (NSD‐Gel) is nanoengineered as a natural skin‐derived e‐skin. With the integration of numerous biological functions and intelligent sensing performances, including transparency, tensile strength, moisture retention, antibacterial property, anti‐freezing, biocompatibility, temperature sensing, humidity sensing, and strain sensing, NSD‐Gel e‐skin has great potential for applications in multidimensional wearable electronic devices, human–machine interfaces, and artificial intelligence.
ISSN:1616-301X
1616-3028
DOI:10.1002/adfm.202212856