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Wearable and Implantable Soft Bioelectronics Using Two-Dimensional Materials
Accounts of Chemical Research, 2018Soft bioelectronics intended for application to wearable and implantable biomedical devices have attracted great attention from material scientists, device engineers, and clinicians because of their extremely soft mechanical properties that match with a variety of human organs and tissues, including the brain, heart, skin, eye, muscles, and neurons, as
Changsoon Choi +4 more
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Bioinspired Materials for Wearable Diagnostics and Biosensors
ACS Biomaterials Science & Engineering, 2023Neelkanth M. Bardhan +2 more
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Natural Biopolymer Materials for Wearable Sensors
Recently, various natural biopolymer-based sensors, such as proteins, cellulose, and chitin, have emerged with great sensing performance and excellent flexibility. This chapter mainly focuses on biopolymer sensing materials applied in different designs and reviews their attractive advantages.Lu Zhang, Meidan Ye, Wenxi Guo
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(Invited) Two-Dimensional Materials for Wearable Electronics
ECS Meeting Abstracts, 2018The term “smart-clothes” has been applied over the past few years referring to the attachment of commercial (rigid) electronic devices to an article of clothing with applications mostly in performance sports or futuristic fashion shows. An actual smart fabric comprising the seamless integration of soft (flexible) electronics within the textile itself
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Piezoelectric Materials for Energy Harvesting in Wearables
Polymer Engineering & ScienceABSTRACTThe growing demand for sustainable, autonomous wearable electronics has spurred significant interest in piezoelectric materials capable of harvesting biomechanical energy from human motion. Piezoelectric energy harvesting offers a promising alternative to traditional battery‐powered systems, enabling continuous operation of wearable devices in ...
Maryam Shekari +4 more
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Biopolymer‐Derived Carbon Materials for Wearable Electronics
Advanced MaterialsAbstract Advanced carbon materials are widely utilized in wearable electronics. Nevertheless, the production of carbon materials from fossil‐based sources raised concerns regarding their non‐renewability, high energy consumption, and the consequent greenhouse gas emissions.
Jiongke Jin +3 more
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Wearable sweat chloride sensors: materials, fabrication and their applications
Analytical MethodsChloride is important for various functions including cellular respiration, nerves, muscles, digestion and metabolism. Therefore, it is used as a biomarker for cystic fibrosis, sports and fitness monitoring and geriatric care.
Vinay Patel +4 more
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Wearable Resistive‐Type Stretchable Strain Sensors: Materials and Applications
Advanced MaterialsAbstractThe rapid advancement of wearable electronics over recent decades has led to the development of stretchable strain sensors, which are essential for accurately detecting and monitoring mechanical deformations. These sensors have widespread applications, including movement detection, structural health monitoring, and human–machine interfaces ...
Sanqing Zhao, Dapeng Liu, Feng Yan
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Application of Nanomaterials in Wearable Electronic Materials
Applied and Computational EngineeringIn recent years, with the rapid development of wearable devices, nanomaterials have played an important role in the field because of their unique physical and chemical properties. Although nanomaterials exhibit great potential in the field of wearable electronics, they still face many challenges related to technology, safety, environmental impact and ...
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