Bio-Logic - Synchrotron Radiation / Neutron Scattering

Synchrotron Radiation / Neutron Scattering

Bio-Logic stopped-flow are the N°1 choice for experiments involving Neutrons and Synchrotron Radiation X-ray scattering. In addition to top of the art specifications, stopped-flow used within Large Instruments Facilities such as Synchrotrons or Reactors require an uncompromised reliability. Bio-Logic stopped-flow that have been installed at ILL and ESRF in Grenoble all derive from standard instruments and as such provide the best testing platforms for our most classical laboratory versions.

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Articles :

Neutron Scattering

How does ZrO2/surfactant mesophase nucleate? Formation mechanism
F. Né, F. Testard, Th. Zemb, I. Grillo
Langmuir (2003), 19(20), 8503-8510
(SFM-3 & ILL neutron beam)
Formation and growth of anionic vesicles followed by small angle neutron scattering
I. Grillo, E.I. Kats, A.R. Muratov
Langmuir (2003), 19 (11) 4573-4581
(SFM-3 & ILL neutron beam)

Synchrotron Radiation

Fast Kinetics Study of Mesoporous Material Growth by Small-angle X-ray Scattering
F. Né, F. Testard, Th. Zemb and J-M. Petit
ESRF Newsletter Oct. 1999
Application of stopped flow techniques and energy dispersive EXAFS for investigation of the reactions of transition metal complexes in solution: Activation of nickel-diketonates to form homogeneous catalysts, electron transfer reactions involving iron(III) and oxidative addition to iridium(I)
M. Basyaruddin B. Abdul Rahman , Peter R. Bolton , John Evans , Andrew J. Dent , Ian Harvey and Sofia Diaz-Moreno
Faraday Discuss., 2002, (Advance Article)
First published on the web 16th july 2002
Energy dispersive X-ray absorption spectroscopy; a tool for time resolved structural studies of chemical reactions in solution
Sofia Diaz-Moreno in "From Semiconductor to Proteins : Beyond the Average Structure"
SJL Billinge & MF Thorpe Ed., Kluwer Academic/Plenum Publishers
March 2002

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