Laser-induced graphene sensors using sustainable components for chemical sensing

Lukas Neumaier; Sabine Lengger; Sherjeel Munsif Khan; Jürgen Kosel

Laser-induced graphene sensors using sustainable components for chemical sensing

Lukas Neumaier, Sabine Lengger, Sherjeel Munsif Khan, Jürgen Kosel

Sensor Applications (SEA)

Publikation: Konferenzbeitrag › Poster › Begutachtung

Abstract

In this work, we evaluate the suitability of various biobased materials for the fabrication of electrochemical
sensors. The working and counter electrodes are based on laser-induced graphene (LIG), a highly innovative
material allowing to manufacture conductive 3D porous graphene by direct irradiation a suitable substrate with a laser. Electrochemical LIG sensors usually rely on further additive processing, including the printing of a reference electrode and leads from conductive materials (e.g. silver ink), and a dielectric to allow the submersion into the solution containing the analyte (reference electrode: Ag/AgCl). Here, we employed for the substrate, the dielectric, and the leads sustainable and even biodegradable materials and evaluated their suitability for
electrochemical sensing.

Originalsprache	Englisch
Publikationsstatus	Veröffentlicht - 28 Feb. 2023
Veranstaltung	LOPEC Conference 2023: Driving the future of printed electronics - ICM – International Congress Center München, München, Deutschland Dauer: 28 Feb. 2023 → 2 März 2023 https://lopec.com/en/

Konferenz

Konferenz	LOPEC Conference 2023
Land/Gebiet	Deutschland
Ort	München
Zeitraum	28/02/23 → 2/03/23
Internetadresse	https://lopec.com/en/

Schlagwörter

electrochemical sensors
sustainable sensors
additive manufacturing
laser-induced graphene

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abstract = "In this work, we evaluate the suitability of various biobased materials for the fabrication of electrochemical sensors. The working and counter electrodes are based on laser-induced graphene (LIG), a highly innovative material allowing to manufacture conductive 3D porous graphene by direct irradiation of a, usually polymeric, substrate with a laser. Electrochemical LIG sensors usually rely on further additive processing, including the printing of a reference electrode and leads from conductive materials (e.g. silver ink), and a dielectric to allow the submersion into the solution containing the analyte (reference electrode: Ag/AgCl). Here, we employed for the substrate, the dielectric, and the leads sustainable and even biodegradable materials and evaluated their suitability for electrochemical sensing. ",

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AU - Neumaier, Lukas

AU - Lengger, Sabine

AU - Khan, Sherjeel Munsif

AU - Kosel, Jürgen

PY - 2023/2/28

Y1 - 2023/2/28

N2 - In this work, we evaluate the suitability of various biobased materials for the fabrication of electrochemical sensors. The working and counter electrodes are based on laser-induced graphene (LIG), a highly innovative material allowing to manufacture conductive 3D porous graphene by direct irradiation of a, usually polymeric, substrate with a laser. Electrochemical LIG sensors usually rely on further additive processing, including the printing of a reference electrode and leads from conductive materials (e.g. silver ink), and a dielectric to allow the submersion into the solution containing the analyte (reference electrode: Ag/AgCl). Here, we employed for the substrate, the dielectric, and the leads sustainable and even biodegradable materials and evaluated their suitability for electrochemical sensing.

AB - In this work, we evaluate the suitability of various biobased materials for the fabrication of electrochemical sensors. The working and counter electrodes are based on laser-induced graphene (LIG), a highly innovative material allowing to manufacture conductive 3D porous graphene by direct irradiation of a, usually polymeric, substrate with a laser. Electrochemical LIG sensors usually rely on further additive processing, including the printing of a reference electrode and leads from conductive materials (e.g. silver ink), and a dielectric to allow the submersion into the solution containing the analyte (reference electrode: Ag/AgCl). Here, we employed for the substrate, the dielectric, and the leads sustainable and even biodegradable materials and evaluated their suitability for electrochemical sensing.

KW - electrochemical sensors

KW - sustainable sensors

KW - additive manufacturing

KW - laser-induced graphene

M3 - Poster

T2 - LOPEC Conference 2023

Y2 - 28 February 2023 through 2 March 2023

ER -

Laser-induced graphene sensors using sustainable components for chemical sensing

Abstract

Konferenz

Schlagwörter

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