Results 241 to 250 of about 20,865 (296)
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Piezoresistivity of magnetorheological elastomers
Journal of Physics: Condensed Matter, 2008Magnetorheological elastomers are smart materials made by aligning magnetic microparticles inside a liquid polymer before the curing process has started. Once cured, the composite presents new properties such as a large change of elasticity when applying a magnetic field.
N, Kchit, G, Bossis
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ACS Applied Materials and Interfaces
Flexible piezoresistive pressure sensors are garnering substantial attention, in line with advancements in biointegrated and wearable electronics.
Jiatai Sun +8 more
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Flexible piezoresistive pressure sensors are garnering substantial attention, in line with advancements in biointegrated and wearable electronics.
Jiatai Sun +8 more
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Research Progress of Flexible Piezoresistive Pressure Sensor: A Review
IEEE Sensors JournalIn the past decade, with the rapid development of mobile internet and the Internet of Things (IoT) technology, flexible pressure sensors have received unprecedented attention. As an essential component for pressure information collection and transmission,
Yujia Zhao +3 more
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ACS Applied Materials and Interfaces, 2022
Flexible piezoresistive sensors are highly desirable for tactile sensing and wearable electronics. However, the reported flexible piezoresistive sensors have the inherent trade-off effect between high sensitivity and wide pressure ranges.
Mengyuan Jing +6 more
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Flexible piezoresistive sensors are highly desirable for tactile sensing and wearable electronics. However, the reported flexible piezoresistive sensors have the inherent trade-off effect between high sensitivity and wide pressure ranges.
Mengyuan Jing +6 more
semanticscholar +1 more source
ACS Applied Materials and Interfaces, 2022
Flexible piezoresistive pressure sensors may exhibit excellent sensing performances to be applied in wearable electronics, medical diagnosis, and electronic skin.
Junhuang Xu +4 more
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Flexible piezoresistive pressure sensors may exhibit excellent sensing performances to be applied in wearable electronics, medical diagnosis, and electronic skin.
Junhuang Xu +4 more
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Journal of Materials Chemistry A
At present, the challenge of high-performance flexible piezoresistive pressure sensors remains the combination of high sensitivity and a wide monitoring range.
Meng Wang +6 more
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At present, the challenge of high-performance flexible piezoresistive pressure sensors remains the combination of high sensitivity and a wide monitoring range.
Meng Wang +6 more
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Microchannel‐Confined MXene Based Flexible Piezoresistive Multifunctional Micro‐Force Sensor
Advanced Functional Materials, 2020Multifunctional micro‐force sensing in one device is an urgent need for the higher integration of the smaller flexible electronic device toward wearable health‐monitoring equipment, intelligent robotics, and efficient human–machine interface.
Yuyu Gao +11 more
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Bubbles-Induced Porous Structure-Based Flexible Piezoresistive Sensors for Speech Recognition.
ACS Applied Materials and InterfacesFlexible piezoresistive sensors with a porous structure that are used in the field of speech recognition are seldom characterized by both high sensitivity and ease of preparation.
Xiaoguang Gao +5 more
semanticscholar +1 more source
2004
Piezoresistivity, the change in electrical resistivity with mechanical stress, is commonly used to monitor static or slowly varying stresses and strains.
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Piezoresistivity, the change in electrical resistivity with mechanical stress, is commonly used to monitor static or slowly varying stresses and strains.
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Journal of Applied Physics, 1964
The change in resistance of a class of alloys called Manganin has been measured as a function of peak shock-wave pressure up to 190 kbar. The pressures are obtained from explosively generated plane shock waves in a material of known Hugoniot equation of state. The Hugoniot of Manganin, which has been measured up to 359 kbar, is used with the resistance
David Bernstein, Douglas D. Keough
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The change in resistance of a class of alloys called Manganin has been measured as a function of peak shock-wave pressure up to 190 kbar. The pressures are obtained from explosively generated plane shock waves in a material of known Hugoniot equation of state. The Hugoniot of Manganin, which has been measured up to 359 kbar, is used with the resistance
David Bernstein, Douglas D. Keough
openaire +1 more source