Add to ORKGManipulating an incorporated scaffold to direct cell behaviors play a key role in tissue engineering. In this study, we developed novel nano-topographic oxidized silicon nanosponges capable of being modified with various chemicals of a few nm in thickness to gain further insight into the fundamental biology of cell-environment interactions in vitro. A wet etching technique was applied to fabricate the silicon nanosponges in a high-throughput manner and was followed by vapor deposition of various organo-silane chemicals to enable self-assembly on the surfaces of the silicon nanosponges. When Chinese hamster ovary cells were cultured on these chemically modified nano-topographic structures, they displayed distinct morphogenesis, adherent resp...
For many years biological and silicon-based structures were considered incompatible because of the d...
Artificial biomimetic substrates provide useful models for studying cell adhesion, signaling, and di...
Nanoscale surface topography exerts profound effects on stem cell behaviour. Detailed knowledge of t...
The importance for manipulating an incorporated scaffold and directing cell behaviors is well apprec...
The aim of biomaterials design is to create an artificial environment that mimics the in vivo extrac...
In tissue engineering, the nanoscale topography of the substrate is important, because transplanted ...
Biomaterials aim to mimic in vivo extracellular matrices where cell interactions occur on the nanosc...
The development of homogenously nano-patterned chemically modified surfaces that can be used to init...
Growing cells are sensitive to the chemical composition, the topography and the mechanical propertie...
Knowledge of cells' interactions with nanostructured materials is fundamental for bio-nanotechnology...
The extracellular matrix (ECM) is a nanostructured environment that provides chemical, mechanical, a...
The localized irradiation of Si allows a precise patterning at the microscale of nanostructured mate...
nano-columns were deposited in 2-D and 3-D in the form of well-defined geometries by physical vapor ...
Porous Silicon is a material that is made when an electric potential is applied to silicon using a h...
Cell culture substrates for contact guidance studies can be developed through polymer processing to ...
For many years biological and silicon-based structures were considered incompatible because of the d...
Artificial biomimetic substrates provide useful models for studying cell adhesion, signaling, and di...
Nanoscale surface topography exerts profound effects on stem cell behaviour. Detailed knowledge of t...
The importance for manipulating an incorporated scaffold and directing cell behaviors is well apprec...
The aim of biomaterials design is to create an artificial environment that mimics the in vivo extrac...
In tissue engineering, the nanoscale topography of the substrate is important, because transplanted ...
Biomaterials aim to mimic in vivo extracellular matrices where cell interactions occur on the nanosc...
The development of homogenously nano-patterned chemically modified surfaces that can be used to init...
Growing cells are sensitive to the chemical composition, the topography and the mechanical propertie...
Knowledge of cells' interactions with nanostructured materials is fundamental for bio-nanotechnology...
The extracellular matrix (ECM) is a nanostructured environment that provides chemical, mechanical, a...
The localized irradiation of Si allows a precise patterning at the microscale of nanostructured mate...
nano-columns were deposited in 2-D and 3-D in the form of well-defined geometries by physical vapor ...
Porous Silicon is a material that is made when an electric potential is applied to silicon using a h...
Cell culture substrates for contact guidance studies can be developed through polymer processing to ...
For many years biological and silicon-based structures were considered incompatible because of the d...
Artificial biomimetic substrates provide useful models for studying cell adhesion, signaling, and di...
Nanoscale surface topography exerts profound effects on stem cell behaviour. Detailed knowledge of t...