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A stable droplet reactor for high temperature nanocrystal synthesis

A stable droplet reactor for high temperature nanocrystal synthesis
A stable droplet reactor for high temperature nanocrystal synthesis
We report a versatile capillary-based droplet reactor for the controlled synthesis of nanoparticles over a wide range of flow conditions and temperatures. The reactor tolerates large flow-rate differentials between individual reagent streams, and allows droplet composition to be varied independently of residence time and volume. The reactor was successfully applied to the synthesis of metal (Ag), metal-oxide (TiO2) and compound semiconductor (CdSe) nanoparticles, and in each case exhibited stable droplet flow over many hours of operation without fouling, even for reactions involving solid intermediates. For CdSe formed by the reaction of Cd oleate and Se, highly controlled growth could be achieved at temperatures of up to 250 °C, with emission spectra varying smoothly and reproducibly with temperature and flow-rate. The droplet reactor showed exceptional stability when operated under constant flow-rate and temperature conditions, yielding particles with well-defined band-edge emission spectra that did not vary over the course of a full day’s continuous operation.
1473-0197
1221-1227
Nightingale, A.M.
c4f1a741-22fd-4a9f-9415-5373ac64ba53
Krishnadasan, S.H.
ccf68e8c-4827-40a5-abe7-80ca682cf087
Berhanu, D.
91b617e0-5d94-4cd8-9896-370f37b20db0
Niu, X.
f3d964fb-23b4-45db-92fe-02426e4e76fa
Drury, C.
d5ba6485-9f4d-43d0-a0c5-ac53c09b7630
McIntyre, R.
f4c3324b-5d1c-4eb6-bda7-a43f4ae085df
Valsami-Jones, E.
d33efddd-76c2-4c1f-a9af-f36b90f97241
deMello, J.C.
84ec5059-aab4-4e48-aa95-69279c38b1d1
Nightingale, A.M.
c4f1a741-22fd-4a9f-9415-5373ac64ba53
Krishnadasan, S.H.
ccf68e8c-4827-40a5-abe7-80ca682cf087
Berhanu, D.
91b617e0-5d94-4cd8-9896-370f37b20db0
Niu, X.
f3d964fb-23b4-45db-92fe-02426e4e76fa
Drury, C.
d5ba6485-9f4d-43d0-a0c5-ac53c09b7630
McIntyre, R.
f4c3324b-5d1c-4eb6-bda7-a43f4ae085df
Valsami-Jones, E.
d33efddd-76c2-4c1f-a9af-f36b90f97241
deMello, J.C.
84ec5059-aab4-4e48-aa95-69279c38b1d1

Nightingale, A.M., Krishnadasan, S.H., Berhanu, D., Niu, X., Drury, C., McIntyre, R., Valsami-Jones, E. and deMello, J.C. (2011) A stable droplet reactor for high temperature nanocrystal synthesis. [in special issue: 10th Anniversary Issue: UK] Lab on a Chip, 11 (7), 1221-1227. (doi:10.1039/c0lc00507j).

Record type: Article

Abstract

We report a versatile capillary-based droplet reactor for the controlled synthesis of nanoparticles over a wide range of flow conditions and temperatures. The reactor tolerates large flow-rate differentials between individual reagent streams, and allows droplet composition to be varied independently of residence time and volume. The reactor was successfully applied to the synthesis of metal (Ag), metal-oxide (TiO2) and compound semiconductor (CdSe) nanoparticles, and in each case exhibited stable droplet flow over many hours of operation without fouling, even for reactions involving solid intermediates. For CdSe formed by the reaction of Cd oleate and Se, highly controlled growth could be achieved at temperatures of up to 250 °C, with emission spectra varying smoothly and reproducibly with temperature and flow-rate. The droplet reactor showed exceptional stability when operated under constant flow-rate and temperature conditions, yielding particles with well-defined band-edge emission spectra that did not vary over the course of a full day’s continuous operation.

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More information

e-pub ahead of print date: 23 December 2010
Published date: 2011
Organisations: Mechatronics

Identifiers

Local EPrints ID: 199879
URI: http://eprints.soton.ac.uk/id/eprint/199879
DOI: doi:10.1039/c0lc00507j
ISSN: 1473-0197
PURE UUID: 34bd8b35-adf5-483d-9ee4-5494a269fe82

Catalogue record

Date deposited: 21 Oct 2011 15:06
Last modified: 14 Mar 2024 04:18

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Contributors

Author: A.M. Nightingale
Author: S.H. Krishnadasan
Author: D. Berhanu
Author: X. Niu
Author: C. Drury
Author: R. McIntyre
Author: E. Valsami-Jones
Author: J.C. deMello

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