Add to ORKGA novel hybrid system combining microfluidic and co-axial electrospinning techniques has been used to generate different types of fibre structures with varied desirable inclusions using food grade polymers, ethyl cellulose and sodium alginate. The processing conditions in the microfluidic T-junction device, i.e. gas pressure and liquid flow rate were adjusted in order to generate near-monodisperse microbubbles which subsequently serve as a platform for particle generation. These particles exhibit micro-scale diameters and different shapes and some bubbles were incorporated into the fibrous mesh prepared by concurrent electrospinning. The fibre/particle structures obtained with different polymers via this novel method could potentially have ...
Electrohydrodynamic (EHD) processing allows the production of micro and nano structures with high su...
Currently, cell culture systems that include nanoscale topography are widely used in order to provid...
Electrospinning has emerged as a very promising technology enabling the production of synthetic poly...
AbstractA novel hybrid system combining microfluidic and co-axial electrospinning techniques has bee...
A novel hybrid system combining microfluidic and co-axial electrospinning techniques has been used t...
AbstractA novel device to produce ethyl cellulose fibres, an important biomaterial in modern food pr...
Electrospinning is a process by which a polymer solution or melt can be spun into submicron fibers b...
Electrospinning technique has proven to be a suitable approach to produce high surface area to volum...
Fibers and fibrous structures are used extensively in various fields due to their many advantages. M...
The end-product of the electrospinning process is typically a randomly aligned fiber mesh or membran...
Electrospinning is a common technique used to fabricate fibrous scaffolds for tissue engineering app...
Electrospinning has attracted tremendous interest in the research community as a simple and versati...
Currently, cell culture systems that include nanoscale topography are widely used in order to provid...
Symposium K: Micro-and Nanoscale Processing of Materials for Biomedical DevicesSession K2Scientific ...
AbstractElectrospinning technology is used to fabricate sub-micrometric fiber mats made of a random ...
Electrohydrodynamic (EHD) processing allows the production of micro and nano structures with high su...
Currently, cell culture systems that include nanoscale topography are widely used in order to provid...
Electrospinning has emerged as a very promising technology enabling the production of synthetic poly...
AbstractA novel hybrid system combining microfluidic and co-axial electrospinning techniques has bee...
A novel hybrid system combining microfluidic and co-axial electrospinning techniques has been used t...
AbstractA novel device to produce ethyl cellulose fibres, an important biomaterial in modern food pr...
Electrospinning is a process by which a polymer solution or melt can be spun into submicron fibers b...
Electrospinning technique has proven to be a suitable approach to produce high surface area to volum...
Fibers and fibrous structures are used extensively in various fields due to their many advantages. M...
The end-product of the electrospinning process is typically a randomly aligned fiber mesh or membran...
Electrospinning is a common technique used to fabricate fibrous scaffolds for tissue engineering app...
Electrospinning has attracted tremendous interest in the research community as a simple and versati...
Currently, cell culture systems that include nanoscale topography are widely used in order to provid...
Symposium K: Micro-and Nanoscale Processing of Materials for Biomedical DevicesSession K2Scientific ...
AbstractElectrospinning technology is used to fabricate sub-micrometric fiber mats made of a random ...
Electrohydrodynamic (EHD) processing allows the production of micro and nano structures with high su...
Currently, cell culture systems that include nanoscale topography are widely used in order to provid...
Electrospinning has emerged as a very promising technology enabling the production of synthetic poly...