I väntan på integration: en etnografisk studie om en institutionellt återskapad vardagsverklighet

Raoof, Dawan

doi:10.24834/isbn.9789178772872

Cited by 1 publication

(2 citation statements)

References 38 publications

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“…The comparable size of AuNPs to enzymes, combined with their unique physicochemical properties, facilitates efficient electronic coupling processes. Studies in this area have shown that gold nanoparticles not only serve as the enzyme carriers but also actively participate in aligning enzymes on their surfaces and directly wiring the redox center to the electrode [90][91][92][93][94]. Some theories explain this through the large surface area-to-volume ratio of gold nanoparticles.…”

Section: Enzymes On Gold Nanoparticles (Aunps) Modified Electrodesmentioning

confidence: 99%

“…In fact, an immobilized enzyme on gold nanoparticles will only experience a transition along the curved surface rather than lying flat, which affects its conformation and activity [115,116]. Some other mechanisms rely on the tunable surface chemistry of gold nanoparticles, contributing in the controlled orientation of enzyme immobilization and maximizing their activity [90].…”

Section: Enzymes On Gold Nanoparticles (Aunps) Modified Electrodesmentioning

confidence: 99%

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Development of Wireless Biosensors Integrated into the Radio Frequency Antenna for Chipless and Battery-less Monitoring of Biological Reactions

Shafaat

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Development of wireless sensors and biosensors is currently experiencing a rapid progress with a substantial focus directed toward highlighting their potential applications as non-invasive wearables, implants, and highly mobile point-of-care devices. Integration of wireless biosensors into the Internet of Things (IoT) is widely acknowledged as a technological advancement with the potential to significantly change daily life. To maximize this potential, simple integration of biosensors with wireless communication elements would be advantageous. In this regard, systems functioning in chipless, and battery-less modes outperform integrated circuit (IC) based and battery-powered wireless biosensors. Nevertheless, the accessibility of these wireless designs is still limited. In this study, we present a novel approach where incorporating silver nanoparticles(AgNPs) as a part of the radio frequency (RF) tag antenna enables the realization of simple, chipless, and battery-less wireless sensing of biological oxidation and reduction reactions. We exemplified the mechanism of operation in such systems by electronic wiring of enzymes through direct electron transfer (DET) and microorganisms through mediated electron transfer (MET) to the redox conversion of Ag/AgCl. The wiring was designed to facilitate the transformation of metallic AgNPs into AgCl (Ag → AgCl) or the conversion of AgCl particles back into metallic AgNPs (AgCl → Ag) when the enzymatic/microorganism based electron transfer reactions were present. These reactions occurring on the biosensor RF tag antenna strongly changed the impedance of the tag, which was wirelessly monitored by a radio frequency identification (RFID) reader. The functionality of the proposed setup in direct electron transfer coupling of the enzymatic reactions to the redox conversion of the Ag/AgCl was demonstrated by wireless detection of glucose in whole blood samples and hydrogen peroxide penetrated through the skin membrane using the enzymes glucose dehydrogenase(GDH) and horseradish peroxidase (HRP). Additionally, the capability of the proposed configuration in mediated electron transfer wiring of microorganisms to the Ag/AgCl electrochemistry was shown by wireless monitoring of medically relevant microbial biofilms in simulated wound fluid. Generalizing, the results of this work, for the first time, demonstrated that exploiting Ag/AgCl as a part of the tag antenna allows simple, chipless, and battery-less wireless sensing of biological oxidation and reduction reactions.

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Section: Enzymes On Gold Nanoparticles (Aunps) Modified Electrodesmentioning

confidence: 99%

Section: Enzymes On Gold Nanoparticles (Aunps) Modified Electrodesmentioning

confidence: 99%

Development of Wireless Biosensors Integrated into the Radio Frequency Antenna for Chipless and Battery-less Monitoring of Biological Reactions

Shafaat

View full text Add to dashboard Cite

show abstract

I väntan på integration: en etnografisk studie om en institutionellt återskapad vardagsverklighet

Cited by 1 publication

References 38 publications

Development of Wireless Biosensors Integrated into the Radio Frequency Antenna for Chipless and Battery-less Monitoring of Biological Reactions

Development of Wireless Biosensors Integrated into the Radio Frequency Antenna for Chipless and Battery-less Monitoring of Biological Reactions

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