Zobrazeno 1 - 10
of 202
pro vyhledávání: '"Michael Tudor"'
Publikováno v:
International Conference on the Challenges, Opportunities, Innovations and Applications in Electronic Textiles.
The weaving of flexible electronic filaments directly into the body of textiles during manufacture represents the state-of-the-art process for integrating electronic functionality into fabrics in a manner that obscures the presence of the electronics
Publikováno v:
2019 IEEE International Conference on Flexible and Printable Sensors and Systems (FLEPS).
This paper reports the integration of temperature sensing filaments within a fabric structure using an industrial textile weaving process. The filament is inserted into bespoke pockets woven within the body of the fabric which conceals the electronic
Publikováno v:
Sensors and Actuators A: Physical. 238:196-206
This paper presents the fabrication and testing of bismuth tellurium (Bi1.8Te3.2) – antimony tellurium (Sb2Te3) based flexible thermocouples using screen printing technology for energy harvesting application. In this study, planar screen printed th
Publikováno v:
Solar Energy. 111:21-29
This paper presents the effect of the illumination type on the performance of photovoltaic energy harvesting for application in buildings. A range of different types of solar cells are available to suit differing illumination sources and intensities.
Autor:
Helga Nunes-Matos, Michael Tudor, Yang Wei, Tilak Dias, Stephen Beeby, Dorothy Hardy, Abiodun Komolafe, Russel Torah, Menglong Li
Publikováno v:
Advanced Materials Technologies. 4:1900176
Practical wearable e‐textiles must be durable and retain, as far as possible, the textile properties such as drape, feel, lightweight, breathability, and washability that make fabrics suitable for clothing. Early e‐textile garments were realized
This paper presents the optimization of a bismuth tellurium (Bi1.8Te3.2)–antimony tellurium (Sb2Te3)-based thermoelectric generator (TEG) fabricated by screen-printing technology on flexible polyimide (Kapton) and textile substrates. New formulatio
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::5885d5e4229f7f39c97d7b9581a9f3c1
https://eprints.soton.ac.uk/401818/
https://eprints.soton.ac.uk/401818/
Publikováno v:
IEEE Sensors Journal. 12:1785-1793
Energy harvesting is an attractive technique for powering wireless sensors and low power devices. Harvesters delivering sufficient power from rotation for sensor applications have been developed, but difficulties are encountered when the devices to b
Publikováno v:
Smart Materials and Structures. 27:075046
Fabrics are stiff in tension but highly compliant in compression in the plane of the textile. The effect of these differing elastic properties on the durability of electronics integrated in or on the fabric is still largely unknown because fabric pro
Publikováno v:
Scopus-Elsevier
Measurement + Control, Vol 41 (2008)
Measurement + Control, Vol 41 (2008)
This paper reviews the principles of thermoelectric energy harvesters and discusses the development of a new type of nanostructured thermoelectric generator, fabricated by combining silicon microfabrication techniques, electroplating and submicron io
Publikováno v:
Measurement + Control, Vol 41 (2008)
Scopus-Elsevier
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Scopus-Elsevier
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This paper describes a microscale electromagnetic vibration powered generator that harvests kinetic energy and provides a localised power supply for wireless applications. The generator is as resonant device and therefore the power output depends upo