Large pore mesostructured organosilica-phosphonate hybrids as highly efficient and regenerable sorbents for uranium sequestration

Chemistry of Materials

Volumn 24, Issue 21, 2012, Pages 4166-4176

  Lebed, Pablo J ^a   Savoie, Jean Daniel ^a   Florek, Justyna ^a   Bilodeau, François ^b   Larivière, Dominic ^a   Kleitz, Freddy ^a  

^a UNIVERSITÉ LAVAL   (Canada)

^b HYDRO QUÉBEC   (Canada)

Author keywords

extraction agent; KIT 6; mesoporous silica; phosphonate; radioisotope; SBA 15; uranium

Indexed keywords

ACIDIC MEDIA; ADSORPTION CAPACITIES; ADSORPTION KINETICS; DIFFERENT PORE SIZES; DYNAMIC EXTRACTION; EQUILIBRIUM CONCENTRATION; EXTRACTION EFFICIENCIES; FUNCTIONALIZATIONS; FUNCTIONALIZED; KIT-6; LANGMUIR MODELS; LARGE PORES; MESOPORE; MESOPOROUS; MESOPOROUS RESINS; MESOPOROUS SILICA; MESOSTRUCTURED; PHOSPHONATES; RADIOCHEMICAL SEPARATION; RADIONUCLIDE EXTRACTION; SBA-15; SCIENTIFIC COMMUNITY; SILICA SUPPORTS; SORBENT MATERIALS; SORPTION KINETICS; STRUCTURAL STABILITIES; THREEDIMENSIONAL (3-D); TRIETHOXYSILANE; URANIUM ADSORPTION; URANIUM EXTRACTION;

ADSORPTION; ENVIRONMENTAL IMPACT; HYBRID MATERIALS; MESOPOROUS MATERIALS; RADIOISOTOPES; SILICA; STABILITY; THREE DIMENSIONAL; URANIUM;

SORBENTS;

EID: 84869024425     PISSN: 08974756     EISSN: 15205002     Source Type: Journal    
DOI: 10.1021/cm3023709     Document Type: Article

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