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J A Roether

Showing results (1-10 of 13) with videos related to

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Journal of Materials Science. Materials in Medicine|August 31, 2004
The effect of surface treatment of hydroxyapatite on the properties of a bioactive bone cementJ A Roether, S Deb
Biomaterials|December 29, 2004
Development of high-viscosity, two-paste bioactive bone cementsS Deb, L Aiyathurai, J A Roether, et al.
Biomedical Materials (Bristol, England)|May 7, 2008
Bioactivity of polyurethane-based scaffolds coated with BioglassM Bil, J Ryszkowska, J A Roether, et al.
Biomedical Materials (Bristol, England)|September 25, 2009
Non-crystalline composite tissue engineering scaffolds using boron-containing bioactive glass and poly(D,L-lactic acid) coatingsT Mantsos, X Chatzistavrou, J A Roether, et al.
Journal of Colloid and Interface Science|December 11, 2012
AC electrophoretic deposition of organic-inorganic composite coatingsT Yoshioka, A Chávez-Valdez, J A Roether, et al.
Journal of Materials Science. Materials in Medicine|June 15, 2007
Vaterite deposition on biodegradable polymer foam scaffolds for inducing bone-like hydroxycarbonate apatite coatingsH Maeda, V Maquet, T Kasuga, et al.
Biomaterials|August 8, 2002
Development and in vitro characterisation of novel bioresorbable and bioactive composite materials based on polylactide foams and Bioglass for tissue engineering applicationsJ A Roether, A R Boccaccini, L L Hench, et al.
Journal of Materials Science. Materials in Medicine|September 7, 2004
Novel bioresorbable and bioactive composites based on bioactive glass and polylactide foams for bone tissue engineeringJ A Roether, J E Gough, A R Boccaccini, et al.
Acta Biomaterialia|November 2, 2011
Copper-releasing, boron-containing bioactive glass-based scaffolds coated with alginate for bone tissue engineeringM M Erol, V Mouriňo, P Newby, et al.
Journal of Hazardous Materials|September 24, 2009
Properties of sintered glass-ceramics prepared from plasma vitrified air pollution control residuesJ A Roether, D J Daniel, D Amutha Rani, et al.
Pageof 2

Showing results (1-10 of 13) with videos related to

Sort By:
Pageof 2
Journal of Materials Science. Materials in Medicine|August 31, 2004
The effect of surface treatment of hydroxyapatite on the properties of a bioactive bone cementJ A Roether, S Deb
Biomaterials|December 29, 2004
Development of high-viscosity, two-paste bioactive bone cementsS Deb, L Aiyathurai, J A Roether, et al.
Biomedical Materials (Bristol, England)|May 7, 2008
Bioactivity of polyurethane-based scaffolds coated with BioglassM Bil, J Ryszkowska, J A Roether, et al.
Biomedical Materials (Bristol, England)|September 25, 2009
Non-crystalline composite tissue engineering scaffolds using boron-containing bioactive glass and poly(D,L-lactic acid) coatingsT Mantsos, X Chatzistavrou, J A Roether, et al.
Journal of Colloid and Interface Science|December 11, 2012
AC electrophoretic deposition of organic-inorganic composite coatingsT Yoshioka, A Chávez-Valdez, J A Roether, et al.
Journal of Materials Science. Materials in Medicine|June 15, 2007
Vaterite deposition on biodegradable polymer foam scaffolds for inducing bone-like hydroxycarbonate apatite coatingsH Maeda, V Maquet, T Kasuga, et al.
Biomaterials|August 8, 2002
Development and in vitro characterisation of novel bioresorbable and bioactive composite materials based on polylactide foams and Bioglass for tissue engineering applicationsJ A Roether, A R Boccaccini, L L Hench, et al.
Journal of Materials Science. Materials in Medicine|September 7, 2004
Novel bioresorbable and bioactive composites based on bioactive glass and polylactide foams for bone tissue engineeringJ A Roether, J E Gough, A R Boccaccini, et al.
Acta Biomaterialia|November 2, 2011
Copper-releasing, boron-containing bioactive glass-based scaffolds coated with alginate for bone tissue engineeringM M Erol, V Mouriňo, P Newby, et al.
Journal of Hazardous Materials|September 24, 2009
Properties of sintered glass-ceramics prepared from plasma vitrified air pollution control residuesJ A Roether, D J Daniel, D Amutha Rani, et al.
Pageof 2