The building sector, including building operations and materials, was responsible for the
emission of∼ 11.9 gigatons of global energy-related CO2 in 2020, accounting for 37% of the …

Cellulose is the most abundant biopolymer on Earth, found in trees, waste from agricultural
crops and other biomass. The fibres that comprise cellulose can be broken down into …

Cellulose is the most abundant polysaccharide on Earth. It can be obtained from a vast
number of sources, eg cell walls of wood and plants, some species of bacteria, and algae …

The rapid growth of the electronics industry and proliferation of electronic materials and
telecommunications technologies has led to the release of a massive amount of untreated …

Nanocelluloses (NC) are nature-based sustainable biomaterials, which not only possess
cellulosic properties but also have the important hallmarks of nanomaterials, such as large …

How do trees support their upright massive bodies? The support comes from the incredibly
strong and stiff, and highly crystalline nanoscale fibrils of extended cellulose chains, called …

The escalating demand for sustainable materials has propelled cellulose into the spotlight
as a promising alternative to petroleum-based products. As the most abundant organic …

In recent times, a clear trend towards the use of biobased materials can be seen in many
areas. Apart from beneficial ecological properties, high strength and stiffness at low weight …

Widespread concerns over the impact of human activity on the environment have resulted in
a desire to replace artificial functional materials with naturally derived alternatives. As such …

With the increase in global fossil fuel consumption and growing demand for sustainability,
the advancement of novel technologies and green materials in the oil and gas industry are …