Monolithic integration of a calorimetric microfluidic flow sensor using flat panel display technology

B. de Wagenaar; Frennie Bens; Alfredo Mameli; Auke Kronemeijer; Agnes Bussmann; Bogdan Firtat; Massimo Mastrangeli; Albert  van Breemen

Monolithic integration of a calorimetric microfluidic flow sensor using flat panel display technology

B. de Wagenaar, Frennie Bens, Alfredo Mameli, Auke Kronemeijer, Agnes Bussmann, Bogdan Firtat, Massimo Mastrangeli, Albert van Breemen

Electronic Components, Technology and Materials

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific

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Abstract

This abstract describes the design, simulation and experimental characterization of a thin film thermal flow sensor fabricated using flat panel display technology. Patterned microelectrodes were successfully applied as a thermal flow sensor, showing good correlation between experimental and simulated data. The use of flat panel display technology could provide an interesting option for cost-effective integration of flow sensing in Organ-on-Chip technologies.

Original language	English
Title of host publication	Proceedings of the 5th Conference on Microfluidic Handling Systems
Number of pages	4
Publication status	Published - 2024
Event	5th Conference on Microfluidic Handling Systems - Munich, Germany Duration: 21 Feb 2024 → 23 Feb 2024 https://www.utwente.nl/en/eemcs/mfhs2024/

Conference

Conference	5th Conference on Microfluidic Handling Systems
Abbreviated title	MFHS2024
Country/Territory	Germany
City	Munich
Period	21/02/24 → 23/02/24
Internet address	https://www.utwente.nl/en/eemcs/mfhs2024/

Keywords

Organ-on-Chip
microfluidics
thermal flow sensor
monolithic integration
flat panel display technology

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MFHS2024_paper_8-fullFinal published version, 477 KB

Cite this

@inproceedings{4312a9531d6542fa8ffaffaee5e522bd,

title = "Monolithic integration of a calorimetric microfluidic flow sensor using flat panel display technology",

abstract = "This abstract describes the design, simulation and experimental characterization of a thin film thermal flow sensor fabricated using flat panel display technology. Patterned microelectrodes were successfully applied as a thermal flow sensor, showing good correlation between experimental and simulated data. The use of flat panel display technology could provide an interesting option for cost-effective integration of flow sensing in Organ-on-Chip technologies.",

keywords = "Organ-on-Chip, microfluidics, thermal flow sensor, monolithic integration, flat panel display technology",

author = "\{de Wagenaar\}, B. and Frennie Bens and Alfredo Mameli and Auke Kronemeijer and Agnes Bussmann and Bogdan Firtat and Massimo Mastrangeli and \{van Breemen\}, Albert",

year = "2024",

language = "English",

booktitle = "Proceedings of the 5th Conference on Microfluidic Handling Systems",

note = "5th Conference on Microfluidic Handling Systems, MFHS2024 ; Conference date: 21-02-2024 Through 23-02-2024",

url = "https://www.utwente.nl/en/eemcs/mfhs2024/",

}

de Wagenaar, B, Bens, F, Mameli, A, Kronemeijer, A, Bussmann, A, Firtat, B, Mastrangeli, M & van Breemen, A 2024, Monolithic integration of a calorimetric microfluidic flow sensor using flat panel display technology. in Proceedings of the 5th Conference on Microfluidic Handling Systems. 5th Conference on Microfluidic Handling Systems, Munich, Bavaria, Germany, 21/02/24.

TY - GEN

T1 - Monolithic integration of a calorimetric microfluidic flow sensor using flat panel display technology

AU - de Wagenaar, B.

AU - Bens, Frennie

AU - Mameli, Alfredo

AU - Kronemeijer, Auke

AU - Bussmann, Agnes

AU - Firtat, Bogdan

AU - Mastrangeli, Massimo

AU - van Breemen, Albert

PY - 2024

Y1 - 2024

N2 - This abstract describes the design, simulation and experimental characterization of a thin film thermal flow sensor fabricated using flat panel display technology. Patterned microelectrodes were successfully applied as a thermal flow sensor, showing good correlation between experimental and simulated data. The use of flat panel display technology could provide an interesting option for cost-effective integration of flow sensing in Organ-on-Chip technologies.

AB - This abstract describes the design, simulation and experimental characterization of a thin film thermal flow sensor fabricated using flat panel display technology. Patterned microelectrodes were successfully applied as a thermal flow sensor, showing good correlation between experimental and simulated data. The use of flat panel display technology could provide an interesting option for cost-effective integration of flow sensing in Organ-on-Chip technologies.

KW - Organ-on-Chip

KW - microfluidics

KW - thermal flow sensor

KW - monolithic integration

KW - flat panel display technology

M3 - Conference contribution

BT - Proceedings of the 5th Conference on Microfluidic Handling Systems

T2 - 5th Conference on Microfluidic Handling Systems

Y2 - 21 February 2024 through 23 February 2024

ER -

Monolithic integration of a calorimetric microfluidic flow sensor using flat panel display technology

Abstract

Conference

Keywords

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