Chemistry Reference
In-Depth Information
223. Brewer, K.N., Herbst, R.S., Todd, T.A., Christian, J.D. 1998. Zirconium extraction into
octyl-(phenyl)-N,N-diisobutylcarbamoylmethylphosphine oxide and tributyl phosphate.
Solvent Extr. Ion Exch.
16 (4): 1047-1066.
224. Fujii, T., Yamana, H., Watanabe, M., Moriyama, H. 2001. Extraction of molybdenum
from nitric acid by octyl(phenyl)-N,N-diisobutylcarbamoylmethyl phosphine oxide.
Solvent Extr. Ion Exch.
19 (1): 127-141.
225. Belair, S., Labet, A., Mariet, C., Dannus, P. 2005. Modeling of the extraction of nitric
acid and neodymium nitrate from aqueous solutions over a wide range of activities by
CMPO.
Solvent Extr. Ion Exch.
23 (4): 481-499.
226. Musikas, C. 1987. Potentiality of non-organophosphours extractants in chemical sepa-
rations of actinides. 5th Symposium on Separation Science and Technology for Energy
Applications, Knoxville, TN, October 26-29.
227. Musikas, C., Condamines, N., Charbonnel, M.C., Hubert, H. 1989. Actinide comple-
xes in solvent extraction. The Amide Type of Extractants, Actinides '89 Conference,
Tashkent, USSR, September 24-29. CEA-CONF-10061.
228. Cuillerdier, C., Musikas, C., Hoel, P., Nigond, L., Vitart, X. 1991. Malonamides as new
extractants for nuclear waste solutions.
Sep. Sci. Technol.
26 (9): 1229-1244.
229. Nigond, N., Condamine, P.Y., Cordier, J. et al. 1995. Recent advances in the treatment of
nuclear waste by the use of the diamide and picolinamide extractant.
Sep. Sci. Technol.
30 (7-9): 2075-2099.
230. Charbonnel, M.C., Berthon, L. 1997. Optimization of the extractant molecule for the
DIAMEX process. In
Rapport Scientifique de la Direction du Cycle de Combustible
(DCC)
. Report CEA-R-5801, pp. 114-119.
231. Spjuth, L., Liljenzin, J.-O., Skalberg, M. et al. 1997. Extraction of actinides and lan-
thanides from nitric acid solution by malonamides.
Radiochim. Acta
78: 39-46.
232. Chan, G.Y.S., Drew, M.G.B., Hudson, M.J. et al. 1997. Solvent extraction of metal ions
from nitric acid solutions using N,N'-substituted malonamides. Experimental and crys-
tallographic evidence for two mechanisms of extraction, metal complexation and ion-
pair formation.
J. Chem. Soc. Dalton Trans.
1997 (4): 649-660.
233. Smith, B.F., Wilson, K.V., Gibson, R.R., Jones, M.M., Jarvinen, G.D. 1997. Amides as
phase modifiers for N,N'-tetraalkylmalonamide extraction of actinides and lanthanides
from nitric acid solutions.
Sep. Sci. Technol.
32 (1-4): 149-173.
234. Madic, C., Hudson, C. 1998. High level liquid waste partitioning by means of com-
pletely incinerable extractants. EUR 18038 EN. European Commission on Nuclear
Science and Technology, Luxembourg.
235. Byers, P. 1998. Novel extraction reagents for the solvent extraction of lanthanides and
trivalent actinides. Ph.D. Thesis. University of Reading.
236. Spjuth, L. 1999. Solvent extraction studies with substituted malonamides and oligopyri-
dines. Ph.D. Thesis. Chalmers University of Technology, Gothenburg.
237. Spjuth, L., Liljenzin, J-O., Hudson, M.J. et al. 2000. Comparison of extraction behav-
iour and basicity of some substituted malonamides.
Solvent Extr. Ion Exch.
18 (1):
1-23.
238. Madic, C., Hudson, M.J., Liljenzin, J-O. et al. 2000. New partitioning techniques for
minor actinides. EUR 19149. European Commission, Luxembourg.
239. Facchini, A., Amato, L., Modolo, G. et al. 2000. Transient- and steady-state concentra-
tion profiles in a DIAMEX-like countercurrent process for An(III) Ln(III) separation.
Sep. Sci. Technol.
35 (7): 1055-1068.
240. Malmbeck, R., Courson, O., Pagliosa, G. et al. 2000. Partitioning of minor actinides
from HLLW using the DIAMEX process. Part 2 - “Hot” continuous counter-current
experiment.
Radiochim. Acta
88: 865-871.
