Add to ORKG Nanofibers and nanofibrous scaffolds with hierarchical aligned structures are constructed by self-assembly and phase separation. As-prepared nanofibrous materials show a specifically high capacity in cell capture and promoting proliferation of cells. More interestingly, the nanofibrous materials can direct HUVECs to assemble into vessel-like structure and 3D growth of DRG neurites.<br /
Fine tuning physical cues of silk fibroin (SF) biomaterials to match specific requirements for diffe...
Electrospinning has been very interesting for the recent years and is used since 1994. Today, contin...
Achieving a high number of inter-pore channels and a nanofibrous structure similar to that of the ex...
Silk fibroin is a protein with intrinsic characteristics that make it a good candidate as a scaffold...
Self-assembling fibrous supramolecular assemblies with sophisticated hierarchical structures at the ...
The astounding biomaterial features of silk for example its high mechanical strength, biocompatibili...
Scaffold plays a critical role in tissue engineering where it provides necessary structural support ...
Native tissues are endowed with a highly organized nanofibrous extracellular matrix (ECM) that direc...
Scaffold plays a critical role in tissue engineering where it provides necessary structural support ...
As a functional biomaterial, silk fibroin has been widely used in drug release, cell encapsulation a...
Presently, some view silk fibroin-based biomaterials as obsolete, being outperformed by a host of ne...
Electrospun silk fibroin nanofibrous scaffolds (ESFNSs) were successfully prepared by electrospinnin...
The biological performance of artificial biomaterials is closely related to their structure characte...
<p>Since its inception, the field of tissue engineering has sought to rebuild the complexity of norm...
Silk fibroin is a commonly available natural biopolymer produced in specialized glands of arthropods...
Fine tuning physical cues of silk fibroin (SF) biomaterials to match specific requirements for diffe...
Electrospinning has been very interesting for the recent years and is used since 1994. Today, contin...
Achieving a high number of inter-pore channels and a nanofibrous structure similar to that of the ex...
Silk fibroin is a protein with intrinsic characteristics that make it a good candidate as a scaffold...
Self-assembling fibrous supramolecular assemblies with sophisticated hierarchical structures at the ...
The astounding biomaterial features of silk for example its high mechanical strength, biocompatibili...
Scaffold plays a critical role in tissue engineering where it provides necessary structural support ...
Native tissues are endowed with a highly organized nanofibrous extracellular matrix (ECM) that direc...
Scaffold plays a critical role in tissue engineering where it provides necessary structural support ...
As a functional biomaterial, silk fibroin has been widely used in drug release, cell encapsulation a...
Presently, some view silk fibroin-based biomaterials as obsolete, being outperformed by a host of ne...
Electrospun silk fibroin nanofibrous scaffolds (ESFNSs) were successfully prepared by electrospinnin...
The biological performance of artificial biomaterials is closely related to their structure characte...
<p>Since its inception, the field of tissue engineering has sought to rebuild the complexity of norm...
Silk fibroin is a commonly available natural biopolymer produced in specialized glands of arthropods...
Fine tuning physical cues of silk fibroin (SF) biomaterials to match specific requirements for diffe...
Electrospinning has been very interesting for the recent years and is used since 1994. Today, contin...
Achieving a high number of inter-pore channels and a nanofibrous structure similar to that of the ex...