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Porous Conductive Textiles for Wearable Electronics

Chemical Reviews
Over the years, researchers have made significant strides in the development of novel flexible/stretchable and conductive materials, enabling the creation of cutting-edge electronic devices for wearable applications. Among these, porous conductive textiles (PCTs) have emerged as an ideal material platform for wearable electronics, owing to their light ...
Yichun Ding   +7 more
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Electrically high-conductive textiles

Synthetic Metals, 2009
Abstract The development of textiles with high electrical conductivity, which may be further processed to flexible heating elements is described. Conductivity was obtained by establishing thin layers by impregnation of the textile with thiophene derivative monomer followed by oxidative polymerization.
Dierk Knittel, Eckhard Schollmeyer
openaire   +1 more source

UWB antennas on conductive textiles

2016 IEEE International Symposium on Antennas and Propagation (APSURSI), 2016
Textile antennas fabricated using conductive E-threads are highly attractive for applications requiring conformality, flexibility, and robustness. However, most E-thread antennas reported to date operate at frequencies < 3 GHz. This is because of losses at higher frequencies, typically associated with surface roughness and imperfect metallization.
Asimina Kiourti   +4 more
openaire   +1 more source

Conductive textiles for wearable electronics

2016 URSI International Symposium on Electromagnetic Theory (EMTS), 2016
We present a new class of conductive textiles, already demonstrated for a variety of flexible antennas and integrated wireless devices. Our approach is based on silver-coated polymer filaments that are bundled in groups of 7s to 600s to form commercial threads (E-threads) for use in regular embroidery machines. Doing so, we have been able to create any
Asimina Kiourti, John L. Volakis
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3D Conductive Textile Shields

Advanced Materials Research, 2013
The perturbing presence of electromagnetic fields is responsible for numerous malfunctions in equipments operation. To eliminate these disturbances it is necessary both to reduce the electromagnetic radiation of electronic devices and to immunize them from the fields present in their operating environment.
openaire   +1 more source

Intrinsically Conducting Cellulose Textiles

2004
Electrically conductive textiles based on polypyrrole thin films deposited on fibre substrates are highly susceptible to oxidation and wear abrasion. Recent research carried out in our laboratories shows that polypyrrole can be embedded in natural and man rnade cellulose-based fibres, such as cotton, Viscose, Cupro and Lyocell, by means of internal ...
TONIN C   +3 more
openaire   +2 more sources

Electrically conductive textiles

2002
Wool fabrics with conventional properties and performances were transformed into electrically conductive textiles by coating the fibers with polypyrrole, a conductive polymer. The fabrics were treated with an aqueous solution containing the monomer pyrrole and a catalyst of polymerization, iron chloride hexahydrate, in order to achieve the deposition ...
Tonin C, Peila R, Ferrero F, Lavelli M
openaire   +3 more sources

Conducting Polymer and Conducting Composite Strain Sensors on Textiles

Molecular Crystals and Liquid Crystals, 2008
Metallic connections and polymer sensors have been printed onto textiles as a step toward the production of flexible printed electronics. We show that the strain response of conducting polymers and composites on woven textiles depends on the detailed distribution the sensor material on the yarn.
Calvert, Paul D   +4 more
openaire   +2 more sources

Conductive textiles as an electromagnetic shield

2019
The paper deals with possible short and long term effect of electromagnetic radiation on both human organisms as well as on operation of electronic devices due to electromagnetic interference. Some sort of shielding is required in order to protect humans and electronic equipment from electromagnetic radiation.
Žabić, Ivan   +2 more
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Conductive textiles

Synthetic Metals, 1989
R.V. Gregory, W.C. Kimbrell, H.H. Kuhn
openaire   +1 more source

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