Multichannel quench-flow microreactor for high-troughput reaction kinetics monitoring on a chip

Research output: Chapter in Book/Report/Conference proceedingConference contributionAcademicpeer-review

Abstract

A novel quench-flow microreactor with parallel reaction lines for high-throughput kinetic studies was designed, fabricated, and tested. The parallel organic reactions can be initiated, controlled and chemically quenched on the chip for each reaction line independently. The simultaneous conversion of substrates to products in 4 loops was monitored by UV-Vis absorbance measurements. Proof of principle of the concept was obtained by a kinetic study of a Knoevenagel condensation reaction.
Original languageUndefined
Title of host publicationIMRET 9 - 9th International Conference on Microreaction Technology
Place of PublicationFrankfurt am Main
PublisherDechema
Pages134-135
Number of pages2
ISBN (Print)not assigned
Publication statusPublished - 6 Sep 2006
Event9th International Conference on Microreaction Technology, IMRET 2006 - Potsdam, Germany
Duration: 6 Sep 20068 Sep 2006
Conference number: 9

Publication series

NameIMRET
PublisherDechema
Number06CH37725
Volume9

Conference

Conference9th International Conference on Microreaction Technology, IMRET 2006
Abbreviated titleIMRET
CountryGermany
CityPotsdam
Period6/09/068/09/06

Keywords

  • EWI-8472
  • METIS-237746
  • IR-63780

Cite this

Bula, W. P., Kristianto, K., Kristianto, K., Gardeniers, J. G. E., Verboom, W., van den Berg, A., & Reinhoudt, D. (2006). Multichannel quench-flow microreactor for high-troughput reaction kinetics monitoring on a chip. In IMRET 9 - 9th International Conference on Microreaction Technology (pp. 134-135). (IMRET; Vol. 9, No. 06CH37725). Frankfurt am Main: Dechema.
Bula, W.P. ; Kristianto, K. ; Kristianto, K. ; Gardeniers, Johannes G.E. ; Verboom, Willem ; van den Berg, Albert ; Reinhoudt, David. / Multichannel quench-flow microreactor for high-troughput reaction kinetics monitoring on a chip. IMRET 9 - 9th International Conference on Microreaction Technology. Frankfurt am Main : Dechema, 2006. pp. 134-135 (IMRET; 06CH37725).
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title = "Multichannel quench-flow microreactor for high-troughput reaction kinetics monitoring on a chip",
abstract = "A novel quench-flow microreactor with parallel reaction lines for high-throughput kinetic studies was designed, fabricated, and tested. The parallel organic reactions can be initiated, controlled and chemically quenched on the chip for each reaction line independently. The simultaneous conversion of substrates to products in 4 loops was monitored by UV-Vis absorbance measurements. Proof of principle of the concept was obtained by a kinetic study of a Knoevenagel condensation reaction.",
keywords = "EWI-8472, METIS-237746, IR-63780",
author = "W.P. Bula and K. Kristianto and K. Kristianto and Gardeniers, {Johannes G.E.} and Willem Verboom and {van den Berg}, Albert and David Reinhoudt",
note = "http://eprints.ewi.utwente.nl/8472",
year = "2006",
month = "9",
day = "6",
language = "Undefined",
isbn = "not assigned",
series = "IMRET",
publisher = "Dechema",
number = "06CH37725",
pages = "134--135",
booktitle = "IMRET 9 - 9th International Conference on Microreaction Technology",

}

Bula, WP, Kristianto, K, Kristianto, K, Gardeniers, JGE, Verboom, W, van den Berg, A & Reinhoudt, D 2006, Multichannel quench-flow microreactor for high-troughput reaction kinetics monitoring on a chip. in IMRET 9 - 9th International Conference on Microreaction Technology. IMRET, no. 06CH37725, vol. 9, Dechema, Frankfurt am Main, pp. 134-135, 9th International Conference on Microreaction Technology, IMRET 2006, Potsdam, Germany, 6/09/06.

Multichannel quench-flow microreactor for high-troughput reaction kinetics monitoring on a chip. / Bula, W.P.; Kristianto, K.; Kristianto, K.; Gardeniers, Johannes G.E.; Verboom, Willem; van den Berg, Albert; Reinhoudt, David.

IMRET 9 - 9th International Conference on Microreaction Technology. Frankfurt am Main : Dechema, 2006. p. 134-135 (IMRET; Vol. 9, No. 06CH37725).

Research output: Chapter in Book/Report/Conference proceedingConference contributionAcademicpeer-review

TY - GEN

T1 - Multichannel quench-flow microreactor for high-troughput reaction kinetics monitoring on a chip

AU - Bula, W.P.

AU - Kristianto, K.

AU - Kristianto, K.

AU - Gardeniers, Johannes G.E.

AU - Verboom, Willem

AU - van den Berg, Albert

AU - Reinhoudt, David

N1 - http://eprints.ewi.utwente.nl/8472

PY - 2006/9/6

Y1 - 2006/9/6

N2 - A novel quench-flow microreactor with parallel reaction lines for high-throughput kinetic studies was designed, fabricated, and tested. The parallel organic reactions can be initiated, controlled and chemically quenched on the chip for each reaction line independently. The simultaneous conversion of substrates to products in 4 loops was monitored by UV-Vis absorbance measurements. Proof of principle of the concept was obtained by a kinetic study of a Knoevenagel condensation reaction.

AB - A novel quench-flow microreactor with parallel reaction lines for high-throughput kinetic studies was designed, fabricated, and tested. The parallel organic reactions can be initiated, controlled and chemically quenched on the chip for each reaction line independently. The simultaneous conversion of substrates to products in 4 loops was monitored by UV-Vis absorbance measurements. Proof of principle of the concept was obtained by a kinetic study of a Knoevenagel condensation reaction.

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KW - METIS-237746

KW - IR-63780

M3 - Conference contribution

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BT - IMRET 9 - 9th International Conference on Microreaction Technology

PB - Dechema

CY - Frankfurt am Main

ER -

Bula WP, Kristianto K, Kristianto K, Gardeniers JGE, Verboom W, van den Berg A et al. Multichannel quench-flow microreactor for high-troughput reaction kinetics monitoring on a chip. In IMRET 9 - 9th International Conference on Microreaction Technology. Frankfurt am Main: Dechema. 2006. p. 134-135. (IMRET; 06CH37725).