Anisotropic Chemical Reactor with Correlation Spectroscopic Control of Nanoparticles Size

Authors A.G. Lazarenko1 , A.N. Andreev1 , A.V. Kanaev2 , K. Chhor2
Affiliations

1 National technical university “Kharkiv polytechnic institute”, 21, Frunze Str., 61002, Kharkiv, Ukraine

2 Laboratory research of materials and technologies of the National center for scientific researches University Paris - 13, av. Klemana-99, 93430 Villetanez, France

Е-mail aspfm@mail.ru
Issue Volume 6, Year 2014, Number 1
Dates Received 12 February 2013; published online 06 April 2014
Citation A.G. Lazarenko, A.N. Andreev, A.V. Kanaev, K. Chhor, J. Nano- Electron. Phys. 6 No 1, 01023 (2014)
DOI
PACS Number(s) 42.25.Bs, 78.67.Bf
Keywords Correlation spectroscopy, Dynamic light scattering (2) , Nanoparticle (77) , Chemical reactor, Fiber-optic sensor, Lightguide capillary.
Annotation This paper proposes a new kind of chemical reactor for nanoparticles synthesis with real-time control of size by correlation spectroscopy methods. The liquid pumping in the reactor is attained by a heater and / or cooler anisotropic placing in a reactor with a bath consisting of two communicating vessels connected by two tubes with transparent portion. When driving the fluid through the transparent area of the narrowed tube particle size is measured by a sensor or sensors. To increase the speed of cyclic movement and mixing of liquid the chemical rector can be supplemented with a mechanical stirrer also anisotropic in shape.

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