In this work, we aim to investigate the effect of Fe2+/Fe3+ doping on the laser sintering of calcium phosphate minerals for the fabrication of bone scaffolds. The laser-matter mechanisms and the biological response are discussed
The present work is an investigation of the biological response to the presence of grooves 3 µm deep...
International audienceSince few years, an intense research activity hasbeen undertaken on obtaining ...
The emergence of mode-locked near-IR (NIR) lasers has opened novel and exciting opportunities in den...
In this work, we aim to investigate the effect of Fe2+/Fe3+ doping on the laser sintering of calcium...
Direct laser sintering on hard tissues is likely to open new pathways for personalised medicine. To ...
Direct laser sintering on hard tissues is likely to open new pathways for personalised medicine. To ...
A radical new methodology for the exogenous mineralization of hard tissues is demonstrated in the co...
A radical new methodology for the exogenous mineralization of hard tissues is demonstrated in the co...
Calcium phosphate based biominerals are the main inorganic constituent of bone and teeth. Therefore,...
We investigated the laser sintering behaviour of rare-earth oxide doped calcium phosphate suspension...
Here we present a platform technology for the direct sintering of calcium phosphates on dental hard ...
A mixture of calcium phosphate (in the form of mineral brushite) powder with a bio-mineral gel was u...
A radical new methodology for the exogenous mineralization of hard tissues is demonstrated in the co...
An IR femtosecond pulsed laser was used for micropatterning of biomineral containing chitosan membra...
The authors acknowledge support from the sponsors of this work; Marie Curie IF (PRe-FActo), IKC PoF ...
The present work is an investigation of the biological response to the presence of grooves 3 µm deep...
International audienceSince few years, an intense research activity hasbeen undertaken on obtaining ...
The emergence of mode-locked near-IR (NIR) lasers has opened novel and exciting opportunities in den...
In this work, we aim to investigate the effect of Fe2+/Fe3+ doping on the laser sintering of calcium...
Direct laser sintering on hard tissues is likely to open new pathways for personalised medicine. To ...
Direct laser sintering on hard tissues is likely to open new pathways for personalised medicine. To ...
A radical new methodology for the exogenous mineralization of hard tissues is demonstrated in the co...
A radical new methodology for the exogenous mineralization of hard tissues is demonstrated in the co...
Calcium phosphate based biominerals are the main inorganic constituent of bone and teeth. Therefore,...
We investigated the laser sintering behaviour of rare-earth oxide doped calcium phosphate suspension...
Here we present a platform technology for the direct sintering of calcium phosphates on dental hard ...
A mixture of calcium phosphate (in the form of mineral brushite) powder with a bio-mineral gel was u...
A radical new methodology for the exogenous mineralization of hard tissues is demonstrated in the co...
An IR femtosecond pulsed laser was used for micropatterning of biomineral containing chitosan membra...
The authors acknowledge support from the sponsors of this work; Marie Curie IF (PRe-FActo), IKC PoF ...
The present work is an investigation of the biological response to the presence of grooves 3 µm deep...
International audienceSince few years, an intense research activity hasbeen undertaken on obtaining ...
The emergence of mode-locked near-IR (NIR) lasers has opened novel and exciting opportunities in den...
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