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4 Up to the 1990s, significant breakthroughs were achieved in flexible and stretchable electronics for various applications using flexible materials. Copyright 2012, Cambridge University Press.Īs early as the 1970s, several researchers had explored the potential application of tactile-sensing simulation and had demonstrated certain inspiring touch sensors, e.g., a prosthetic hand with tactile feedback and a personal computer with a touchscreen, but with low resolution and rigid materials. “Human machine interaction:” Reproduced with permission. 82 Copyright 2014, American Chemical Society. “Wireless technology:” Reproduced with permission. Copyright 2011, American Association for the Advancement of Science. 74 “Flexibility:” Reproduced with permission. “Electronic signature:” Reproduced with permission. 111 “Implantable device:” Reproduced with permission. 96 “Biomedical sensor:” Reproduced with permission. “Temperature detection:” Reproduced with permission. 19 Copyright 2014, Macmillan Publishers Ltd. Copyright 2014, Royal Society of Chemistry. “Health monitoring:” Reproduced with permission. 61 Copyright 2013, Macmillan Publishers Ltd. “Visual display:” Reproduced with permission. 75 Copyright 2013, Macmillan Publishers Ltd. “Flexible cell:” Reproduced with permission. Copyright 2012, Macmillan Publishers Ltd. “Self-healing:” Reproduced with permission. 105 Copyright 2008, American Association for the Advancement of Science. “Integrated circuit:” Reproduced with permission. 106 Copyright 2015, Macmillan Publishers Ltd. “Magnetic field sensor:” Reproduced with permission. Copyright 2014, Macmillan Publishers Ltd. “Prosthesis:” Reproduced with permission. 10 Copyright 2012, Macmillan Publishers Ltd. “Force sensor:” Reproduced with permission. 30 Copyright 2015, Macmillan Publishers Ltd.
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"Pressure mapping:” Reproduced with permission. Copyright 2013, Macmillan Publishers Ltd. “High resolution:” Reproduced with permission. 31 Copyright 2010, Macmillan Publishers Ltd. “High sensitivity:” Reproduced with permission. 12 Copyright 2013, Macmillan Publishers Ltd.
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“Large scale:” Reproduced with permission. The rapidly increasing innovations in this area will be important to the scientific community and to the future of human life.Ĭharacteristic properties and diverse functions or applications of recently developed devices for e-skins. Future opportunities lie in the fabrication of highly intelligent e-skins that can sense and respond to variations in the external environment. Other recent progress in this field includes the integration with high-density flexible circuits for signal processing, the combination with wireless technology for convenient sensing and energy/data transfer, and the development of self-powered e-skins. Multi-modal force sensing, temperature, and humidity detection, as well as self-healing abilities are also exploited for multi-functional e-skins. These arrays can map pressure with high resolution and rapid response beyond that of human perception. To imitate tactile sensing via e-skins, flexible and stretchable pressure sensor arrays are constructed based on different transduction mechanisms and structural designs.
#Digital Physiognomy Crack Key skin
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 promote the development of electronic skin (e-skin). The skin is the largest organ of the human body and can sense pressure, temperature, and other complex environmental stimuli or conditions.