Add to ORKGABSTRACT: Electrospinning is a technique used to produce micron to submicron diameter polymeric fibers. The surface of electrospun fibers is important when considering end-use applications. For example, the ability to introduce porous surface features of a known size is required if nanoparticles need to be deposited on the surface of the fiber or if drug molecules are to be incorporated for controlled release. Surface features, or pores, became evident when electrospinning in an atmosphere with more than 30% relative humidity. Increasing humidity causes an increase in the number, diameter, shape, and distribution of the pores. Increasing the molecular weight of the polystyrene (PS) results in larger, less uniform shaped pores. This work inc...
Elektrospin yöntemi, birkaç mikrometreden 100 nanometrenin altlarına kadar farklı çaplarda lif üreti...
Reproducibility is a well-known issue in research involving electrospun materials, and, therefore, i...
A profound understanding of how to tailor surface topographies of electrospun fibers is of great imp...
Abstract: Controlling environmental humidity level and thus moisture interaction with an electrospin...
Various thermoplastic polymers have been spun to nanofibers by the electrospinning method, in which ...
By electrospinning method, fibers are produced with diameters ranging from hundred nanometers up to ...
Electrospinning is a simple and highly versatile method for generating ultrathin fibers (mainly poly...
In this study, the effect of relative humidity and temperature on the morphology of electrospun Poly...
Polystyrene (PS) dissolved in a mixture of N, N-dimethylformamide (DMF) and/or tetrahydrofuran (THF)...
Direct write melt electrospinning is an additive manufacturing technique used to produce 3D polymer ...
This paper presents the effect of humidity on electrospun polycaprolactone nanofiber formation using...
Controlling environmental humidity level and thus moisture interaction with an electrospinning solut...
To obtain uniform and reproducible nanofibres, it is important to understand the effect of the diffe...
Electrospinning as a simple method was used to produce cellulose acetate porous fibers. Motivation f...
Electrospinning is a process that generates nanofibres. Temperature and humidity affect this process...
Elektrospin yöntemi, birkaç mikrometreden 100 nanometrenin altlarına kadar farklı çaplarda lif üreti...
Reproducibility is a well-known issue in research involving electrospun materials, and, therefore, i...
A profound understanding of how to tailor surface topographies of electrospun fibers is of great imp...
Abstract: Controlling environmental humidity level and thus moisture interaction with an electrospin...
Various thermoplastic polymers have been spun to nanofibers by the electrospinning method, in which ...
By electrospinning method, fibers are produced with diameters ranging from hundred nanometers up to ...
Electrospinning is a simple and highly versatile method for generating ultrathin fibers (mainly poly...
In this study, the effect of relative humidity and temperature on the morphology of electrospun Poly...
Polystyrene (PS) dissolved in a mixture of N, N-dimethylformamide (DMF) and/or tetrahydrofuran (THF)...
Direct write melt electrospinning is an additive manufacturing technique used to produce 3D polymer ...
This paper presents the effect of humidity on electrospun polycaprolactone nanofiber formation using...
Controlling environmental humidity level and thus moisture interaction with an electrospinning solut...
To obtain uniform and reproducible nanofibres, it is important to understand the effect of the diffe...
Electrospinning as a simple method was used to produce cellulose acetate porous fibers. Motivation f...
Electrospinning is a process that generates nanofibres. Temperature and humidity affect this process...
Elektrospin yöntemi, birkaç mikrometreden 100 nanometrenin altlarına kadar farklı çaplarda lif üreti...
Reproducibility is a well-known issue in research involving electrospun materials, and, therefore, i...
A profound understanding of how to tailor surface topographies of electrospun fibers is of great imp...