Low temperature co-fired ceramics microreactor for the synthesis of carbon dots with fluorescence imaging of the reaction progress

M. Berenguel-Alonso; A. Salinas-Castillo; B. Fernández; P. Couceiro; J. Alonso-Chamarro; L. F. Capitán-Vallvey; M. Puyol

Low temperature co-fired ceramics microreactor for the synthesis of carbon dots with fluorescence imaging of the reaction progress

M. Berenguel-Alonso, A. Salinas-Castillo, B. Fernández, P. Couceiro, J. Alonso-Chamarro, L. F. Capitán-Vallvey, M. Puyol^*

^*Autor corresponent d’aquest treball

Universidad de Granada (UGR)

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This work presents a Low Temperature Co-fired Ceramics (LTCC) microreactor with integrated heater and optical window for reaction monitoring. This fabrication procedure enables the integration of both heater and optical window in an all-ceramic monolithic microfluidic device, thus achieving the advantages of homogeneous surface chemistry and physical properties, the integration of electronics and transparency to monitor a chemical reaction. Carbon Dots (CDots) were synthesized at high temperature and pressure (190 °C and 17 bar) in aqueous solution. The reaction progress was followed by means of fluorescence imaging and the CDots obtained presented a quantum yield (QY) of 0.75.

Idioma original	Anglès
Nombre de pàgines	2
ISBN (electrònic)	9780979806490
Estat de la publicació	Publicada - 2016

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Nom	20th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2016

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@misc{2338cb6342fb4ee48d21fb382c7363b5,

title = "Low temperature co-fired ceramics microreactor for the synthesis of carbon dots with fluorescence imaging of the reaction progress",

abstract = "This work presents a Low Temperature Co-fired Ceramics (LTCC) microreactor with integrated heater and optical window for reaction monitoring. This fabrication procedure enables the integration of both heater and optical window in an all-ceramic monolithic microfluidic device, thus achieving the advantages of homogeneous surface chemistry and physical properties, the integration of electronics and transparency to monitor a chemical reaction. Carbon Dots (CDots) were synthesized at high temperature and pressure (190 °C and 17 bar) in aqueous solution. The reaction progress was followed by means of fluorescence imaging and the CDots obtained presented a quantum yield (QY) of 0.75.",

keywords = "Carbon Dots, Low temperature co-fired ceramics, Microfabrication, Microreactor",

author = "M. Berenguel-Alonso and A. Salinas-Castillo and B. Fern{\'a}ndez and P. Couceiro and J. Alonso-Chamarro and Capit{\'a}n-Vallvey, {L. F.} and M. Puyol",

year = "2016",

language = "English",

series = "20th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2016",

type = "Other",

}

Low temperature co-fired ceramics microreactor for the synthesis of carbon dots with fluorescence imaging of the reaction progress. / Berenguel-Alonso, M.; Salinas-Castillo, A.; Fernández, B. et al.
2 pàg. 2016Proceeding Congreso. (20th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2016).

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TY - GEN

T1 - Low temperature co-fired ceramics microreactor for the synthesis of carbon dots with fluorescence imaging of the reaction progress

AU - Berenguel-Alonso, M.

AU - Salinas-Castillo, A.

AU - Fernández, B.

AU - Couceiro, P.

AU - Alonso-Chamarro, J.

AU - Capitán-Vallvey, L. F.

AU - Puyol, M.

PY - 2016

Y1 - 2016

N2 - This work presents a Low Temperature Co-fired Ceramics (LTCC) microreactor with integrated heater and optical window for reaction monitoring. This fabrication procedure enables the integration of both heater and optical window in an all-ceramic monolithic microfluidic device, thus achieving the advantages of homogeneous surface chemistry and physical properties, the integration of electronics and transparency to monitor a chemical reaction. Carbon Dots (CDots) were synthesized at high temperature and pressure (190 °C and 17 bar) in aqueous solution. The reaction progress was followed by means of fluorescence imaging and the CDots obtained presented a quantum yield (QY) of 0.75.

AB - This work presents a Low Temperature Co-fired Ceramics (LTCC) microreactor with integrated heater and optical window for reaction monitoring. This fabrication procedure enables the integration of both heater and optical window in an all-ceramic monolithic microfluidic device, thus achieving the advantages of homogeneous surface chemistry and physical properties, the integration of electronics and transparency to monitor a chemical reaction. Carbon Dots (CDots) were synthesized at high temperature and pressure (190 °C and 17 bar) in aqueous solution. The reaction progress was followed by means of fluorescence imaging and the CDots obtained presented a quantum yield (QY) of 0.75.

KW - Carbon Dots

KW - Low temperature co-fired ceramics

KW - Microfabrication

KW - Microreactor

UR - http://www.scopus.com/inward/record.url?scp=85014148131&partnerID=8YFLogxK

M3 - Other contribution

AN - SCOPUS:85014148131

T3 - 20th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2016

ER -

Low temperature co-fired ceramics microreactor for the synthesis of carbon dots with fluorescence imaging of the reaction progress

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