Results 281 to 290 of about 674,615 (340)

A Piezo-sensor Readout Integrated Circuit for Multifunctional Electronic Skins

, 2018
Seungmok Kim
openalex   +1 more source

Porous Coatings by Vapor Sublimation and Deposition for Molecular Channeling and Filtration in an Interstitial Fluid Microfiltration Device

Advanced Healthcare Materials, EarlyView.
A vapor‐based porous coating applied within nitinol tubes demonstrated complete suppression of cellular and tissue ingrowth, overcoming a major limitation of implantable interstitial fluid collection devices. Molecular channeling and diffusion are analyzed with probe molecules, showing reliable transport in vitro and in vivo. The coating also achieved >
Yu‐Ming Chang, Chi‐Yu Huang, Yi‐Jia Ke, Yi‐Wei Lin, Yen‐Hui Chan, Ying‐Chang Lu, Yu‐Chih Chiang, Chen‐Chi Wu, Hsien‐Yeh Chen   +8 more
wiley   +1 more source

Highly Sensitive Oxidation‐Resistant Degradable Janus Piezoresistive Electronic Skin for Sustainable Wearable Electronics

Advanced Healthcare Materials, EarlyView.
This study presents a highly sensitive, oxidation‐resistant, biocompatible, and degradable Janus piezoresistive electronic skin for sustainable wearable electronics. The electronic skin exhibits sensitive and stable response across a broad pressure range, exceptional oxidation resistance, and Janus wettability.
Joon Kim, Mohammad Zarei, Deristisya Zahra, Yuhan Lee, Daegun Kim, Seung Goo Lee   +5 more
wiley   +1 more source

Antimicrobial Efficacy of a Taurolidine‐Based Antimicrobial Compound on Contaminated Surfaces Simulated in a Standardized 4‐Field Test

Advanced Healthcare Materials, EarlyView.
As implantable medical devices become indispensable to modern medicine, a silent threat grows alongside them: device‐associated infections. Despite decades of antibiotic innovation, infection rates keep climbing, costing lives and billions in healthcare expenses.
Benito Baldauf, Hendrik Bonnemeier, Ernest W. Lau, Jana Hummel, Reinhard Vonthein, Ojan Assadian   +5 more
wiley   +1 more source

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Wet‐Adaptive Electronic Skin

Advanced Materials, 2023
AbstractSkin electronics provides remarkable opportunities for non‐invasive and long‐term monitoring of a wide variety of biophysical and physiological signals that are closely related to health, medicine, and human‐machine interactions. Nevertheless, conventional skin electronics fabricated on elastic thin films are difficult to adapt to the wet ...
Fan Chen, Qiuna Zhuang, Yichun Ding, Chi Zhang, Xian Song, Zijian Chen, Yaokang Zhang, Quanjin Mei, Xin Zhao, Qiyao Huang, Zijian Zheng   +10 more
openaire   +2 more sources

Pursuing prosthetic electronic skin

Nature Materials, 2016
Skin plays an important role in mediating our interactions with the world. Recreating the properties of skin using electronic devices could have profound implications for prosthetics and medicine. The pursuit of artificial skin has inspired innovations in materials to imitate skin's unique characteristics, including mechanical durability and ...
Alex, Chortos, Jia, Liu, Zhenan, Bao
openaire   +2 more sources

Resistive electronic skin

Journal of Materials Chemistry C, 2017
Devices made from traditional conductive bulk materials using complex microfabrication methods often are restricted to being rigid and in some cases, flexible but not strethcable.
Naveen N. Jason, My D. Ho, Wenlong Cheng
openaire   +1 more source