Add to ORKGBiomaterials are any matter or material which interacts with biological system which were present on natural or synthetic nonviable materials. An ideal biomaterial must physically and chemically compatible for biological applications to avoid toxicity and immune reaction. Collagen is a widely abundant, robust biopolymer that is found in the extracellular matrix (ECM) of many tissues. In terms of its structure and organization, collagen is a bio-nano material. The use of collagen in stem cell differentiation is particularly enticing since it is now evident that the extracellular matrix (ECM) proteins can regulate the cell’s fate and growth by their molecular and physical properties. In this thesis research, we have characterized the physical...
Carbon nanotubes (CNTs) are one of the most popular nanomaterials. There has been increasing interes...
The fabrication of collagen-based biomaterials for skin regeneration offers various challenges for t...
Next generation of biomaterials with enhanced functionalities requires the integration of material s...
One of the main goals of tissue engineering is to create new functional scaffolds with desired chemi...
Fibrillar collagen is a one-dimensional biopolymer and is the most abundant structural protein in th...
The reassessment of the literature stipulates that an increasing amount of research in exploring the...
The scientific community is gathering an ever-growing collection of insights into how cell fate is f...
In the last decades, increased knowledge about the organization, structure and properties of collage...
Collagen is the dominant component of the extracellular matrix of mammals. It occurs almost in all a...
Biological tissues are compositionally and structurally exquisite – a complex network of proteins an...
Osteoblast differentiation can be modulated by variations in order of nanoscale topography. Biopolym...
Collagen, the most abundant protein, and hydroxyapatite, the main component in natural bone, are usu...
The use of nanofibrous scaffolds for tissue engineering applications is emerging as an important are...
The ultimate goal of regenerative medicine is to create functional engineered biomaterial to repair ...
Studying changes in collagen deformation behavior at the nanoscale due to variations in mineralizati...
Carbon nanotubes (CNTs) are one of the most popular nanomaterials. There has been increasing interes...
The fabrication of collagen-based biomaterials for skin regeneration offers various challenges for t...
Next generation of biomaterials with enhanced functionalities requires the integration of material s...
One of the main goals of tissue engineering is to create new functional scaffolds with desired chemi...
Fibrillar collagen is a one-dimensional biopolymer and is the most abundant structural protein in th...
The reassessment of the literature stipulates that an increasing amount of research in exploring the...
The scientific community is gathering an ever-growing collection of insights into how cell fate is f...
In the last decades, increased knowledge about the organization, structure and properties of collage...
Collagen is the dominant component of the extracellular matrix of mammals. It occurs almost in all a...
Biological tissues are compositionally and structurally exquisite – a complex network of proteins an...
Osteoblast differentiation can be modulated by variations in order of nanoscale topography. Biopolym...
Collagen, the most abundant protein, and hydroxyapatite, the main component in natural bone, are usu...
The use of nanofibrous scaffolds for tissue engineering applications is emerging as an important are...
The ultimate goal of regenerative medicine is to create functional engineered biomaterial to repair ...
Studying changes in collagen deformation behavior at the nanoscale due to variations in mineralizati...
Carbon nanotubes (CNTs) are one of the most popular nanomaterials. There has been increasing interes...
The fabrication of collagen-based biomaterials for skin regeneration offers various challenges for t...
Next generation of biomaterials with enhanced functionalities requires the integration of material s...