Nanocellulose-based polyurethane foam adsorbent for pressure-driven dye-contaminated water purification

Dye-contaminated water has caused a worldwide pollution, which is threatening aquatic organisms and human health. In this work, a pressure-driven foam adsorbent (PFA) was bioinspired from the tapestry turban for purifying the dye-contaminated water. The PFA was prepared using an one-step method from nanocellulose (NC), amino-functionalized ZIF-8 (ZIF-8-NH2), and high resilience polyurethane foam (PUF). It was applied to efficiently remove methyl orange (MO) and crystal violet (CV) dyes from dye-contaminated waste solutions. The maximum adsorption capacity of PFA for MO and CV was 225.9 mg/g (25 & DEG;C, pH = 2) and 41.6 mg/g (25 & DEG;C, pH = 10), respectively, which were acceptable as compared with the reported works. The dyes could be efficiently removed from various river water samples. After 5 cycles, the removal efficiencies of MO and CV decreased from 92.0% and 85.7% to 84.7% and 76.1%, respectively. Moreover, the PFA relied on pressure-driven force to release the purified water under a low pressure.

Automated summary

Dye-contaminated water is a global pollution problem that threatens aquatic organisms and human health. In this study, a bioinspired pressure-driven foam adsorbent (PFA) was developed from nanocellulose (NC), amino-functionalized ZIF-8 (ZIF-8-NH2), and high resilience polyurethane foam (PUF) to purify the dye-contaminated water. The PFA showed efficient removal of methyl orange (MO) and crystal violet (CV) dyes from dye-contaminated waste solutions.