High‐strength petroleum‐based materials like plastics have been widely used in various
fields, but their nonbiodegradability has caused serious pollution problems. Cellulose, as …

This review considers the most recent developments in supramolecular and supraparticle
structures obtained from natural, renewable biopolymers as well as their disassembly and …

Ionic liquids (ILs) and deep eutectic solvents (DESs) debuted with a promise of a superior
sustainability footprint due to their low vapor pressure. However, their toxicity and high cost …

The dual threats of the depletion of nonrenewable energy and environmental pollution
caused by petroleum-based polymers motivate utilization of naturally occurring polymers to …

It is essential for textile manufacturing industries to invent new resources, composites and
industrial technologies, which are environmentally acceptable and can fulfill the consumer …

Cellulose, a natural, renewable, and environment friendly biopolymer, has been considered
as a sustainable feedstock in the near future. However, only 0.3% of cellulose is today …

Cellulose, a well-known fascinating biopolymer, has been considered to be a sustainable
feedstock of energy sources and chemical engineering in the future. However, due to its …

Cellulose, lignin and lignocellulose are important bioresources in the nature. Their effective
and environmentally friendly utilization not only reduces dependence on fossil resources but …

Shaping cellulose into functional materials entered a new era with the introduction of ionic
liquids as novel, green solvents about 20 years ago. As non-volatile solvents with high …

The progress of bio-based fluorescent smart materials and their multifunctional applications
have attained increasing interest in the recent decades. Cellulose is among the cheapest …