Formation of Three‐Dimensional Polysuccinimide Electrospun Fiber Meshes Induced by the Combination of CaCl₂ and Humidity

Abstract: Even though electrospinning is getting more and more attention, the preparation of three‐dimensional (3D) nanofibrous meshes is still a big challenge that limits the application of electrospun materials, especially in tissue engineering. To overcome this problem several solutions have been introduced but most of them focus on the postprocessing of the electrospun meshes. In this paper, we present a straightforward novel method that utilizes the joint effect of the addition of CaCl2 and the relative environment… Show more

“…For example, when the DEX concentration was 2 wt%, the average fiber diameter was 207.09 nm, and when the concentration increased to 10 wt%, the diameter increased to 338.90 nm. This increase occurred because, as mentioned earlier, increased concentration and viscosity mean that, under the same voltage, the fibers experience the same pulling force, resulting in an increase in fiber diameter [ 36 , 37 ].…”

“…wt%, the average fiber diameter was 207.09 nm, and when the concentration increased to 10 wt%, the diameter increased to 338.90 nm. This increase occurred because, as mentioned earlier, increased concentration and viscosity mean that, under the same voltage, the fibers experience the same pulling force, resulting in an increase in fiber diameter [36,37]. In order to verify whether the prepared nanofibers are of a core-shell structure, transmission electron microscopy was used to verify the structure of the electrospun fibers.…”

Improvement of Stress Resistance of Microencapsulated Lactobacillus plantarum by Emulsion Electrospinning

“…For example, when the DEX concentration was 2 wt%, the average fiber diameter was 207.09 nm, and when the concentration increased to 10 wt%, the diameter increased to 338.90 nm. This increase occurred because, as mentioned earlier, increased concentration and viscosity mean that, under the same voltage, the fibers experience the same pulling force, resulting in an increase in fiber diameter [ 36 , 37 ].…”

“…wt%, the average fiber diameter was 207.09 nm, and when the concentration increased to 10 wt%, the diameter increased to 338.90 nm. This increase occurred because, as mentioned earlier, increased concentration and viscosity mean that, under the same voltage, the fibers experience the same pulling force, resulting in an increase in fiber diameter [36,37]. In order to verify whether the prepared nanofibers are of a core-shell structure, transmission electron microscopy was used to verify the structure of the electrospun fibers.…”

Improvement of Stress Resistance of Microencapsulated Lactobacillus plantarum by Emulsion Electrospinning

Development of photo-crosslinked poly(aspartic acid) fiber networks via electrospinning