Cédric Duée scite author profile

Cédric Duée

3Publications

130Citation Statements Received

71Citation Statements Given

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115

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Affiliations

Bureau de Recherches Géologiques et Minières, Polytechnic University of Hauts-de-France, University of Orléans

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Evidence of Nanometric-Sized Phosphate Clusters in Bioactive Glasses As Revealed by Solid-State ³¹P NMR

et al. 2013

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Bioactive glasses are able to form strong bonds to bone. This property, crucial for medical applications, depends on the glass composition and structure. Dissolution of phosphates in melt-quenched silicate glasses raises the question of chemical homogeneity and possible formation of clusters. A detailed structural characterization of the bioactive glasses is thus highly desirable. In this work, the nature of the distribution of phosphate units in a melt-quenched bioactive glass is elucidated for the first time using 31 P spin-counting solid-state NMR experiments. The structure of a dense bioactive calcium silicate glass with 2.6 mol % of phosphorus oxide is shown to exhibit nanometric-sized chemical and structural heterogeneities. Clear experimental evidence of the presence of phosphate clusters of five and six PO 4 tetrahedral units embedded in the disordered polymeric silicate network is given.

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Predicting bioactive properties of phosphosilicate glasses using mixture designs

Duée

Grattepanche-Lebecq

Désanglois

et al. 2013

Journal of Non-Crystalline Solids

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Impact of heterogeneities and surface roughness on pXRF, pIR, XRD and Raman analyses: Challenges for on-line, real-time combined mineralogical and chemical analyses on drill cores and implication for “high speed” Ni-laterite exploration

Duée

Orberger

Maubec

et al. 2019

Journal of Geochemical Exploration

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Cédric Duée

Evidence of Nanometric-Sized Phosphate Clusters in Bioactive Glasses As Revealed by Solid-State ³¹P NMR

Predicting bioactive properties of phosphosilicate glasses using mixture designs

Impact of heterogeneities and surface roughness on pXRF, pIR, XRD and Raman analyses: Challenges for on-line, real-time combined mineralogical and chemical analyses on drill cores and implication for “high speed” Ni-laterite exploration

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Cédric Duée

Evidence of Nanometric-Sized Phosphate Clusters in Bioactive Glasses As Revealed by Solid-State 31P NMR

Predicting bioactive properties of phosphosilicate glasses using mixture designs

Impact of heterogeneities and surface roughness on pXRF, pIR, XRD and Raman analyses: Challenges for on-line, real-time combined mineralogical and chemical analyses on drill cores and implication for “high speed” Ni-laterite exploration

Contact Info

Product

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Evidence of Nanometric-Sized Phosphate Clusters in Bioactive Glasses As Revealed by Solid-State ³¹P NMR