Add to ORKGArtículo de publicación ISINanostructured porous silica coatings were synthesized on titanium by the combined sol–gel and evaporationinduced self-assembly process. The silica-coating structures were characterized by X-ray diffraction, transmission electron microscopy, scanning electron microscopy, and nitrogen sorptometry. The effect of the nanoporous surface on apatite formation in simulated body fluid, protein adsorption, osteoblast cell adhesion behavior, and osteogenic differentiation of human bone marrow mesenchymal stem cells (hBMSCs) is reported. Silica coatings with highly ordered sub-10 nm porosity accelerate early osteoblast adhesive response, a favorable cell response that is attributed to an indirect effect due to th...
A composite bioactive glass-ceramic coating grafted with porous silica nanofibers was fabricated on ...
Bones can suffer from damages due to ageing or traumatisms like fractures. When they are too damaged...
In this study, we report a hybrid organic–inorganic TEOS–MTES (tetraethylorthosilicate–methyltrietho...
Artículo de publicación ISINanostructured porous silica coatings were synthesized on titanium by th...
Artículo de publicación ISIThe fabrication of a nanoporous silica coating loaded with bioactive glas...
Silica nanoparticles (SiNPs) have been utilized to construct bioactive nanostructures comprising sur...
In order to improve the osseointegration of endosseous implants made from titanium, the structure an...
Martin Adam,1 Cornelia Ganz,1 Weiguo Xu,1 Hamid-Reza Sarajian,2 Werner Götz,3 Thomas Gerber1 1I...
A series of sol–gel derived silicon based coatings were developed to improve the osseointegration o...
Silica nanoparticles (NP) were investigated as a surface modification medium and their impact on cel...
Contains fulltext : 49048.pdf (publisher's version ) (Open Access)Two surface-reac...
A great challenge of today’s implant development is to construct a surface that promotes tissue inte...
Bone tissue engineering has emerged as an alternative to overcome the problems associated with the c...
Polycaprolactone/silica microporous hybrid membranes were produced in two steps: A microporous polyc...
When surface-reactive (bioactive) coatings are applied to medical implants by means of the sol-gel d...
A composite bioactive glass-ceramic coating grafted with porous silica nanofibers was fabricated on ...
Bones can suffer from damages due to ageing or traumatisms like fractures. When they are too damaged...
In this study, we report a hybrid organic–inorganic TEOS–MTES (tetraethylorthosilicate–methyltrietho...
Artículo de publicación ISINanostructured porous silica coatings were synthesized on titanium by th...
Artículo de publicación ISIThe fabrication of a nanoporous silica coating loaded with bioactive glas...
Silica nanoparticles (SiNPs) have been utilized to construct bioactive nanostructures comprising sur...
In order to improve the osseointegration of endosseous implants made from titanium, the structure an...
Martin Adam,1 Cornelia Ganz,1 Weiguo Xu,1 Hamid-Reza Sarajian,2 Werner Götz,3 Thomas Gerber1 1I...
A series of sol–gel derived silicon based coatings were developed to improve the osseointegration o...
Silica nanoparticles (NP) were investigated as a surface modification medium and their impact on cel...
Contains fulltext : 49048.pdf (publisher's version ) (Open Access)Two surface-reac...
A great challenge of today’s implant development is to construct a surface that promotes tissue inte...
Bone tissue engineering has emerged as an alternative to overcome the problems associated with the c...
Polycaprolactone/silica microporous hybrid membranes were produced in two steps: A microporous polyc...
When surface-reactive (bioactive) coatings are applied to medical implants by means of the sol-gel d...
A composite bioactive glass-ceramic coating grafted with porous silica nanofibers was fabricated on ...
Bones can suffer from damages due to ageing or traumatisms like fractures. When they are too damaged...
In this study, we report a hybrid organic–inorganic TEOS–MTES (tetraethylorthosilicate–methyltrietho...