TY - JOUR ID - 47979 TI - A Novel Needle-Less Multi-Pin-‎Electrospinning Method to Fabricate ‎Nanofibers from Dilute PAN Solution JO - International Journal of Nanoscience and Nanotechnology JA - IJNN LA - en SN - 1735-7004 AU - Moradi, G. AU - Rajabi, L. AU - Dabirian, F. AU - Babaei, M. AD - Department of Polymer Research, Faculty of Petroleum and Chemical Engineering, Razi ‎University, Kermanshah, Iran.‎ AD - ‎Department of materials and textile Engineering, College of Engineering, Razi University, ‎Kermanshah, Iran.‎ Y1 - 2020 PY - 2020 VL - 16 IS - 4 SP - 249 EP - 258 KW - Needle-less electrospinning KW - Multi-pin KW - Dilute solution KW - Thin nanofibers KW - Polyacrylonitrile.‎ DO - N2 -   A novel needle-less electrospinning system, "Multi-pin-electrospinning" was developed to produce thin nanofibers from dilute Polyacrylonitrile (PAN) solutions. PAN solution was placed in an open polymer bath. 16 stainless steel pins in 4 parallel rows were attached to a metal rod to form stable polymer jets. Pins were dipped into a polymer solution by rotating the pins containing rod and under the application of the electric field, multiple Taylor cone were formed followed by the multi-jet ejection from the cone's tip, then nanofibers were deposited on the aluminum collector sheet placed above the pins. The multi-pin-electrospun nanofibers were thinner with narrower diameter distribution compared with electrospun nanofibers prepared through the conventional method. The influence of the affecting parameters such as solution concentration, applied voltage, pins-collector distance and addition of CaCl2 salt on the diameter of multi-pin-electrospun nanofibers were investigated. The applied voltage change did not significantly affect the average diameter of nanofibers. At pins-collector distance of 6 cm, wet nanofibers with the beaded structure were formed, whereas on increasing the distance bundles in the fibers were disappeared and straight nanofibers with fewer beads were collected. The addition of 1 wt% CaCl2 salt to the 3 wt% PAN/DMF solution resulted in the formation of smooth, almost bead-free nanofibers. UR - https://www.ijnnonline.net/article_47979.html L1 - https://www.ijnnonline.net/article_47979_4ec93c11f2f63db196cf1981d7dd4045.pdf ER -