posted on 2019-12-23, 09:29authored byXingchen Liu, You-Lo Hsieh
Uniquely amphoteric soy protein (SP)-rich ultra-fine
fibers (231
nm average diameter) have been facilely electrospun from aq. colloids
and rendered water-insoluble by heating (150 °C, 12 h) to be
highly stable over 14 d (pH 7) as well as under extremely acidic to
basic (pH 0–10, 2 d) or at boil (2 h) conditions. The SP-rich
fibrous membranes are easily tuned to be charged either negatively
by deprotonation above or positively by protonation below the 4.5
PI of SPs. This pH-responsive amphoterism has been demonstrated for
rapid adsorption of either cationic or anionic dyes, selective adsorption
of either dye from their mixtures, and repetitive adsorption/desorption
to recover and reuse both dyes and membranes. Chemisorption and heterogeneous
adsorption of ionic dyes was confirmed by close fitting to the pseudo-second-order
kinetic model (R2 = 0.9977–0.9999)
and Freundlich adsorption isotherm (R2 = 0.9879). This is the first report of water-resilient and pH-robust
ultrafine fibrous membranes fabricated from aqueous colloids of neat
globular SPs, the major byproducts of under-utilized edible oil and
biodiesel. The natural polyampholyte origin, amphoterism, and green
processing make these fibrous materials unique and versatile for many
potential applications involving both anionic and cationic species.