Surface and morphological investigation of synthesized nanostructured ridges from electrospun polyvinyl alcohol-albumin blend - A Taguchi design of experiment approach
College
Gokongwei College of Engineering
Department/Unit
Chemical Engineering
Document Type
Article
Source Title
Fibers
Volume
8
Issue
29
Publication Date
5-2-2020
Abstract
We report the synthesis of presumably a “nanoridge” from the electrospinning of a hydrophilic polymer–protein blend. The material exhibits vertical elevation from the substrate, distinct from the morphologies seen in electrospinning. It is hypothesized that the formation of the nanostructured ridges is due to the migration of the charged protein to the apex through a highly polarized electric field in electrospinning conditions. In this study, we assessed the polyvinyl alcohol–egg albumin (PVA–EA) system in a solvent comprising of water, formic and acetic acid, together with the tip-to-collector distance (TCD) and solution flowrate. To quantify the factor effects in the surface properties of the material, a Taguchi design of experiment was used. The ridge heights observed ranged from 84.8–639.9 nm, and the material height is predominantly affected by the PVA–EA ratio and solution flow rate. The root mean square roughness was influenced by the TCD and flow rate, which has values ranging from 11.37–57.56 nm. In evaluating the sharpness of the ridge, we used the radius of curvature, where the TCD highly affects the apex sharpness. The work offers not just a likely new class of morphology, but a new perspective on the surface characterization of an electrospun material which could affect the performance of such a use in biological and physical systems.
html
Recommended Citation
Ramis, J., Pajarito, B., Natividad, C., Van Ocampo, M., Tugade, C., Santos, J., & Delfin, R. E. (2020). Surface and morphological investigation of synthesized nanostructured ridges from electrospun polyvinyl alcohol-albumin blend - A Taguchi design of experiment approach. Fibers, 8 (29) Retrieved from https://animorepository.dlsu.edu.ph/faculty_research/15234
Disciplines
Chemical Engineering
Keywords
Nanostructured materials; Electrospinning; Albumins; Polyvinyl alcohol; Atomic force microscopy; Surfaces (Technology)—Analysis
Upload File
wf_no