Results 11 to 20 of about 1,671,198 (361)
Superconductor Microwave Kinetic Inductance Detectors: System Model of the Readout Electronics [PDF]
Radioengineering, 2009 This paper deals with the readout electronics needed by superconductor Microwave Kinetic Inductance Detectors (MKIDs). MKIDs are typically implemented in the form of cryogenic-cooled high quality factor microwave resonator. The natural frequency of these
F. Alimenti +3 more
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Increasing Electrode Work Function Using a Natural Molecule
Advanced Materials Interfaces, 2023 Providing sustainability to organic electronics is highly demanded to reduce the negative impact of organic devices on environments and human health upon their disposal.
Kouki Akaike +4 more
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Textiles, 2022 Deciphering how the dielectric properties of textile materials are orchestrated by their internal components has far-reaching implications. For the development of textile-based electronics, which have gained ever-increasing attention for their uniquely ...
Yusuke Yamada
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Interface Design for Stretchable Electronic Devices
Advanced Science, 2021 Stretchable electronics has emerged over the past decade and is now expected to bring form factor‐free innovation in the next‐generation electronic devices.
Dong Wook Kim, Minsik Kong, Unyong Jeong
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Developing High-Resolution Thin-Film Microcircuits on Textiles
Engineering Proceedings, 2023 Scaling down the form-factor of printed electronics is one of the methods for improving the reliability of printed e-textiles. This also enhances the wearability of the printed e-textile.
Abiodun Komolafe +2 more
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Molecules, 2022 Self-assembled monolayers (SAMs) of terpyridine-based transition metal (ruthenium and osmium) complexes, anchored to gold substrate via tripodal anchoring groups, have been investigated as possible redox switching elements for molecular electronics.
Jana Kocábová +5 more
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From Droplets to Devices: Recent Advances in Liquid Metal Droplet Enabled Electronics
Advanced Functional Materials, 2023 Liquid metals, particularly non‐toxic gallium‐based alloys, have emerged as promising materials for future soft electronics due to their unique properties, including fluidity, excellent electrical and thermal conductivities, and surface reactivity.
Wedyan Babatain +2 more
semanticscholar +1 more source
HotCarbon, 2023 Mark Weiser predicted in 1991 that computing would lead to individuals interacting with countless computing devices, seamlessly integrating them into their daily lives until they disappear into the background [42].
Tingyu Cheng +3 more
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Advances in design and manufacture of stretchable electronics
Japanese Journal of Applied Physics, 2022 Flexible and stretchable electronics present opportunities for transition from rigid bulky devices to soft and conformal systems. However, such technology requires mechanical design and integration strategies to enhance robustness and form factor.
Liam Gillan +3 more
semanticscholar +1 more source
Precise, subnanosecond, and high-voltage switching enabled by gallium nitride electronics integrated into complex loads. [PDF]
Review of Scientific Instruments, 2021 In this work, we report the use of commercial gallium nitride (GaN) power electronics to precisely switch complex distributed loads, such as electron lenses and deflectors.
J. Simonaitis +4 more
semanticscholar +1 more source