Results 21 to 30 of about 674,615 (340)
Advanced Science, 2023 As key interfaces for the disabled, optimal prosthetics should elicit natural sensations of skin touch or proprioception, by unambiguously delivering the multimodal signals acquired by the prosthetics to the nervous system, which still remains ...
Shengshun Duan +11 more
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Advanced Science, 2022 Flexible electronic skin with features that include sensing, processing, and responding to stimuli have transformed human–robot interactions. However, more advanced capabilities, such as human‐like self‐protection modalities with a sense of pain, sign of
Xiaojie Xu +11 more
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Pencil–paper on-skin electronics [PDF]
Proceedings of the National Academy of Sciences, 2020 Significance On-skin electronics are usually fabricated by patterning conventional inorganic materials, novel organic materials, or emerging nanomaterials on flexible polymer substrates. Consequently, the state-of-the-art on-skin electronics usually suffer from expensive precursor materials, costly fabrication facilities, complex fabrication ...
Yadong Xu +14 more
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Advanced Intelligent Systems, 2023 Tactile sensor capable of detecting both normal and tangential forces is essential for the next‐generation robotic electronics. However, designing a reliable triaxial tactile sensor to decouple the normal and tangential forces is still a challenge for ...
Yiding Gu +5 more
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Imperceptible Electronic Skin [PDF]
Information Display, 2014 The authors describe recent progress, bottlenecks, and future applications for extra‐light and flexible interfaces such as electronic skin.
Tsuyoshi Sekitani +3 more
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Personalised electronic messages to improve sun protection in young adults [PDF]
, 2012 The incidence of all skin cancers, including melanoma, continues to rise. It is well known that ultraviolet (UV) radiation is the main environmental risk factor for skin cancer, and excessive exposure at a young age increases the risk of developing skin ...
Alison Marshall +9 more
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Recent Progress in Electronic Skin [PDF]
Advanced Science, 2015 The skin is the largest organ of the human body and can sense pressure, temperature, and other complex environmental stimuli or conditions. The mimicry of human skin's sensory ability via electronics is a topic of innovative research that could find broad applications in robotics, artificial intelligence, and human–machine interfaces, all of which ...
Wang, Xiandi +5 more
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Artificial Somatosensors: Feedback Receptors for Electronic Skins
Advanced Intelligent Systems, 2020 The human skin is the largest sensory organ, made up of complex sensors that detect noxious stimuli to rapidly send warning signals to the central nervous system to initiate a motor response.
Md. Ataur Rahman +7 more
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Skin-Inspired Pressure Sensor with MXene/P(VDF-TrFE-CFE) as Active Layer for Wearable Electronics
Nanomaterials, 2021 Multi-functional electronic skin is of paramount significance for wearable electronics in health monitoring, medical analysis, and human-machine interfacing systems.
Xiao-Quan Shen +3 more
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Human Body Parts Proximity Measurement Using Distributed Tactile Robotic Skin
Sensors, 2021 Safety in human–machine cooperation is the current challenge in robotics. Safe human–robot interaction requires the development of sensors that detect human presence in the robot’s workspace.
Jan Klimaszewski, Michał Władziński
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