Saccharum spontaneum, popularly known as Kashful (KF) is a seasonal perennial grass with thin culms, mostly an abundantly growing shrub during the autumn season in southern Asia. It is used as no-cost scavenger to convincingly arrest methylene blue, a recalcitrant dye from colored effluent. FTIR, FESEM-EDX, and BET surface area characterize the material well whereas the surface activity was evaluated from zero-point charge (pHZPC = 6.720). FTIR highlights the presence of polyphenolic and carboxylate moieties. The surface texture is rod-like with intermittent non-homogeneous pores with occasional fractures. The equilibrium reaches within 60 min with the maximum adsorption capacity of 20.917 mg/g. The fibrous powder of kashful stalk (KFS) follows pseudo-second-order (R2 = 0.999 for linear and R2 = 0.985 for non-linear) kinetics and both Langmuir and Freundlich isotherm model (for linear, Langmuir R2=0.995; for non-linear, R2 = 0.994 for both Langmuir and Freundlich model). The uptake process was spontaneous (ΔG= -3.077 kJ/mol) and endothermic (ΔH = 17.815 kJ/mol). 1:1 methanol could regenerate the dye-loaded material in up to 55% and onward efficiency was conducive for three consecutive cycles. Industrial effluent analysis suggests a real-time removal of ∼55% in the first cycle. Saccharum spontaneum could be exercised to solve environmental problems related to colored water.
Keywords: Kashful; Saccharum spontaneum; methylene blue.
Saccharum spontaneum, also known as wild sugarcane is an abundantly available long grass with relatively slender culms; usually 100–150 cm tall, grows in the autumn season (August-October) in the south-east part of Asia, and displays steady tillering. Being a non-preferred meal for local herbivores, the material lies abandoned as bio-waste. At the same time, the search for a newer and cleaner alternative for wastewater treatment is on the rise. In line with the waste-to-wealth protocol for a sustainable environment, we have demonstrated the facile uptake of a recalcitrant dye methylene blue (20.917 mg/g) using its stalks powder. The present method is free from any hazardous chemical activation, acid-base treatment, or pyrolysis. With the ability to treat industrial effluent, the material highlights an impactful application in a lab-to-land fashion.