Oil absorbed by aerogels was an effective method for achieving efficient oil–water
separation. However, absorbent regeneration and recovery of oil were key issues that …

The use of aerogels to selectively recover oil from oily wastewater is effective but
challenging. In this study, a new carboxylated carbon nanotube/chitosan aerogel …

With the rapid development of the maritime industry, oily wastewater discharges and oil
spills cause acute environmental challenges. Currently, cellulosic materials with switchable …

This work reports porous and hydrophobic aerogels prepared from cellulose nanocrystals
(CNCs) with the assistance of poly (vinyl alcohol)(PVA), followed by thermal chemical vapor …

A thermo-responsive cellulose-based material (cellulose-g-PNIPAAm) was prepared by
grafting N-isopropylacrylamide (NIPAAm) onto bagasse pulp cellulose via Ce (IV)-initiated …

Oily wastewater caused by industrial production and crude oil leakage has attracted
worldwide attention. Here, a thermo-and pH dual-responsive biodegradable cellulose …

Discharge of oily wastewater with poor fluidity could cause serious environmental pollution.
Therefore, rapid and efficient removal and recovery of oil is still a global problem. Currently …

Discharge of oily wastewater have caused serious environmental pollution and resources
waste. Due to the characteristics of hydrophobic and porous, aerogel has been proved to be …

As the most abundant green and renewable resource in nature, cellulose has received the
researchers' attention because of its excellent properties. In this paper, novel renewable …

The novel wettability switchable cellulose nanofiber‐(CNF‐) based aerogel was
conveniently prepared by polydopamine mediated composition of CNF and n …