Electrospinning Nanofiber on an Insulating Surface with a Patterned Functional Electrolyte Electrode

Electrodes in traditional electrospinning processes have been used to directly collect nanofibers, or to induce a modified electric field to collect aligned nanofibers. In this context, many studies have been carried out to overcome the limitations of simple metal electrodes. In this study, a sub‐millimeter‐scale electrospun nanofiber patterning technique is proposed, which uses a functional electrolyte as a collector electrode between an electrospun nanofiber and a collector substrate. Adhesion between nanofibers and substrate is promoted by using polydopamine solution as a functional electrolyte. In this method, after the electrospinning process is completed, the electrolyte used as the collector electrode is evaporated so that the nanofiber and the substrate are in direct contact, without any trace of the metal electrode. Nanofibers can also be patterned on a thick insulator using this fabrication method. This fabrication method combines the advantages of conventional wet‐electrospinning and electrospinning techniques with metal electrodes in terms of nanofiber patterning. In this research, the electrospinning technique using a patterned functional electrolyte as a collector is developed. The researchers use an adhesion promoter between the nanofibers and the substrate as an example of a functional electrolyte, resulting in superior adhesion performance than patterned nanofibers with other electrolytes.