Vanadium Datas in eV
EK ΔEK EL1 ΔEL1 EL2 ΔEL2 EL3 ΔEL3 EKα1 ΔEKα1 EKα2 ΔEKα2 EKß1
5465 1.01 626.7 2.41 519.8 0.26 512.1 0.24 4952.2 1.26a / 1.75b 4944.64 1.28a / 2.38b 5427.29

Main beamline parameters at K-edge
Bending Magnet Monochromator Mirrors
Vertical div. (mrad) Cristal type Angle (°) Resolution (eV) Angle (mrad) Cut-off energy (keV)
0.240 Si(220) 36.26 0.280 7.1 8.2
Si(111) 21.24 0.747

Main crystal analyzer spectrometer parameters at K-edge
Line Crystal
Name E (eV) Type Bragg angle (°)
EKα1 4952.2 Ge(331) 74.70
EKß1 5427.29 Ge(422) 81.562
Si(331) 66.463



 

Experiments already done with this element / available references

Earth & Environmental Sciences

El Beze L., Rose J., Mouillet V., Farcas F., Masion A., Chaurand P., Bottero J.-Y., “Location and evolution of the speciation of vanadium in bitumen and model of reclaimed bituminous mixes during ageing: Can vanadium serve as a tracer of the aged and fresh parts of the reclaimed asphalt pavement mixture?”, Fuel 102 (2012) 423-430

Chaurand P., Rose J., Briois V., Salome M., Proux O., Nassif V., Olivi L., Susini J., Hazemann J.-L., Domas J., Chateau L., Bottero J.-Y., “Comparison between Vanadium K-edge XANES interpretation methods to determine oxidation state and coordination number”, Journal of Physical Chemistry B 110 (2007) 5101-5110

Chaurand P., Rose J., Briois V., Olivi L., Hazemann J.-L., Proux O., Domas J., Bottero J.-Y., “Environmental impacts of steel slag reused in road construction: a crystallographic and molecular (XANES) approach”, Journal of Hazardous Materials 139 (2007) 537–542

Chaurand Perrine, “Apport de la cristallochimie et de la spéciation du chrome et du vanadium à la modélisation de l’altération de granulats artificiels (sous-produits d’acierie)”, Thèse de l'Université Paul Cézanne (2006)

Material Science

Rodolakis F., Rueff J.-P., Sikora M., Alliot I., Itié J.-P., Baudelet F., Ravy S., Wzietek P., Hansmann P., Toschi A., Haverkort M.W., Sangiovanni G., Held K., Metcalf P. and Marsi M., “Evolution of the electronic structure of a Mott system across its phase diagram: X-ray absorption spectroscopy study of (V1−xCrx)2O3”, Physical Review B 84 (2011) 245113

Rodolakis F., Hansmann P., Rueff J.-P., Toschi A., Haverkort M.W., Sangiovanni G., Saha-Dasgupta T., Held K., Sikora M., Alliot I., Itié J.-P., Baudelet F., Wzietek P., Metcalf P., Marsi M., "Inequivalent routes through the Mott transition in V2O3 explored by x-ray absorption spectroscopy: pressure vs. temperature and doping", Physical Review Letters 104 (2010) 047401

Rodolakis Fanny, “Spectroscopies à l’aide du rayonnement synchrotron appliquées aux systèmes fortement corrélés : Transition métal-isolant dans les oxydes de vanadium”, Thèse de doctorat de l’Université Paris Sud, spécialité Physique (2009)

Liscio F., Maret M., Meneghini C., Hazemann J.-L., Albrecht M., “Properties of ultra thin vanadium layers in V/Ru superlattices”, J. Phys.: Condens. Mat. 19 (2007) 486005

Sadoc A., Heckmann O., Nassif V., Proux O., Hazemann J.-L., Xing L.Q., Kelton K.F., “Local order and nanostructure induced by microalloying in Al-Y-Fe amorphous alloy”, Journal of Non-Crystalline solids 353 (2007) 2758-2766

Chemistry, Catalysis & Electrochemistry

Murayama H., Vitry D., Ueda W., Fuchs G., Anne M., Dubois J.L., “Structure characterization of orthorhombic phase in MoVTeNbO catalyst by powder X-ray diffraction and XANES”, Applied Catalysis A: General 318 (2007) 137-142