Add to ORKGInorganic/organic sol–gel hybrids have nanoscale co-networks of organic and inorganic components that give them the unique potential of tailored mechanical properties and controlled biodegradation in tissue engineering applications. Here, silica/chitosan hybrid scaffolds with oriented structures were fabricated through the sol–gel method with a unidirectional freeze casting process. 3-Glycidoxypropyl trimethoxysilane (GPTMS) was used to obtain covalent inorganic/organic coupling. Process variables were investigated such as cooling rate, GPTMS and inorganic content, which can be used to tailor the mechanical properties and hybrid chemical coupling. Structural characterization and dissolution tests confirmed the covalent cross-linking of the ...
Biomaterials are needed for tissue regeneration applications that provide control of mechanical prop...
International audienceBone tissue engineering is gaining popularity as an alternative method for the...
Sol-gel hybrid materials are made up of covalently bonded and interpenetrating networks of organic a...
Inorganic/organic sol–gel hybrids have nanoscale co-networks of organic and inorganic components tha...
Tissues have limited self-healing capabilities when a defect is above its critical size. Biomaterial...
Inorganic/organic hybrid scaffolds have great potential for tissue engineering applications due to c...
Inorganic/organic hybrid scaffolds have great potential for tissue engineering applications due to c...
The world’s population is aging and cases of debilitating degenerative diseases are increasing. Bone...
Owing to their diverse range of highly tailorable material properties, inorganic/organic hybrids hav...
Chitosan–silica porous hybrids were prepared by a novel strategy in order to improve the mechanical ...
Novel biomaterials are needed for bone tissue repair with improved mechanical performance compared t...
Tissue regeneration is a key function of the body, but often tissues are subject to damage that they...
et al.Chitosan has been explored as a potential component of biomaterials and scaffolds for many tis...
Chitosan has been explored as a potential component of biomaterials and scaffolds for many tissue en...
Bioglass® was the first synthetic material capable of bonding with bone without fibrous encapsulatio...
Biomaterials are needed for tissue regeneration applications that provide control of mechanical prop...
International audienceBone tissue engineering is gaining popularity as an alternative method for the...
Sol-gel hybrid materials are made up of covalently bonded and interpenetrating networks of organic a...
Inorganic/organic sol–gel hybrids have nanoscale co-networks of organic and inorganic components tha...
Tissues have limited self-healing capabilities when a defect is above its critical size. Biomaterial...
Inorganic/organic hybrid scaffolds have great potential for tissue engineering applications due to c...
Inorganic/organic hybrid scaffolds have great potential for tissue engineering applications due to c...
The world’s population is aging and cases of debilitating degenerative diseases are increasing. Bone...
Owing to their diverse range of highly tailorable material properties, inorganic/organic hybrids hav...
Chitosan–silica porous hybrids were prepared by a novel strategy in order to improve the mechanical ...
Novel biomaterials are needed for bone tissue repair with improved mechanical performance compared t...
Tissue regeneration is a key function of the body, but often tissues are subject to damage that they...
et al.Chitosan has been explored as a potential component of biomaterials and scaffolds for many tis...
Chitosan has been explored as a potential component of biomaterials and scaffolds for many tissue en...
Bioglass® was the first synthetic material capable of bonding with bone without fibrous encapsulatio...
Biomaterials are needed for tissue regeneration applications that provide control of mechanical prop...
International audienceBone tissue engineering is gaining popularity as an alternative method for the...
Sol-gel hybrid materials are made up of covalently bonded and interpenetrating networks of organic a...