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Digital Fabrication of UHF Electromagnetic Structures

Lead Research Organisation: University of Manchester
Department Name: Chemistry

Abstract

Abstracts are not currently available in GtR for all funded research. This is normally because the abstract was not required at the time of proposal submission, but may be because it included sensitive information such as personal details.

Publications

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Ding Z (2013) Improving the performance of organic thin film transistors formed on a vacuum flash-evaporated acrylate insulator in Applied Physics Letters

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Karim N (2017) All inkjet-printed graphene-based conductive patterns for wearable e-textile applications in Journal of Materials Chemistry C

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Oyeka D (2013) Developing inkjet printing to enable low cost UHF RFID transfer tattoo tags

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Oyeka DO (2023) A comparison of conductive ink usage optimization techniques used in fabrication of epidermal UHF radio frequency identification tags for medical and sensing applications. in Healthcare technology letters

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Oyeka DO (2017) Effect of skin dielectric properties on the read range of epidermal ultra-high frequency radio-frequency identification tags. in Healthcare technology letters

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Oyeka DO (2021) Robustness evaluation of an inkjet-printed epidermal ultra-high-frequency radio frequency identification tag. in Healthcare technology letters

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Sanchez-Romaguera V (2015) Inkjet printed paper based frequency selective surfaces and skin mounted RFID tags: the interrelation between silver nanoparticle ink, paper substrate and low temperature sintering technique in Journal of Materials Chemistry C

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Sanchez-Romaguera V (2013) UHF Electromagnetic Structures Inkjet Printed on Temperature Sensitive Substrates: a Comparative Study of Conductive Inks and Sintering Methods to Enable Low Cost Manufacture in NIP & Digital Fabrication Conference

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Sanchez-Romaguera V (2013) Towards inkjet-printed low cost passive UHF RFID skin mounted tattoo paper tags based on silver nanoparticle inks in Journal of Materials Chemistry C

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Turki B (2013) Influence of defective elements on performance of frequency selective surfaces in Electronics Letters

 
Description first development of printed raid antenna for body mounting via tattoo application
Exploitation Route exploring commercial opportunities with users in supply chain
Sectors Chemicals

Electronics

Healthcare

Pharmaceuticals and Medical Biotechnology

Retail
 
Description developing technology with leading FMCG company
First Year Of Impact 2016
Sector Electronics,Retail
Impact Types Economic
 
Description EPSRC Responsive mode
Amount £296,908 (GBP)
Funding ID EP/L019868/1 
Organisation Engineering and Physical Sciences Research Council (EPSRC) 
Sector Public
Country United Kingdom
Start 05/2014 
End 06/2016