What is nanocellulose? NANOCELLULOSE: Technology, Applications, and Markets reviews the development of nanocellulose technology and markets from the 1950s to today and provides a view of the road ahead, opportunities and challenges, with a forecast for 2020 and 2025. Svagan et al. showed that nanocellulose has the ability to reinforce starch foams by using a freeze-drying technique. has made it an ideal choice in number of reinforcement applications. Nanocellulose can be used as a valuable sorptive material, comparable to activated carbon or carbon nanomaterial, to remove contaminants (2). Discovered in the early 1980s, nanocellulose lost its commercialization purpose because of the high amount of energy (≅ 30,000 kWh/tonne) that was needed to delaminate fibers for its production. Biodegradable plastic is generally weaker than petroleum-based plastic, but by mixing it with nanocellulose to make a composite, we can improve the mechanical strength to some extent.” The difficulty lies in balancing mechanical strength with decomposition ability. Chemistry: Nanocellulose materials. The past decades have witnessed an influx in research targeting at nanocellulose preparation, functionalization and applications. Nanocellulose (NC) is the novel form of the most ancient and natural plant-based polymer on earth, cellulose. Nanocellulose is an interesting building block for functional materials and has gained considerable interest due to its mechanical robustness, large surface area and biodegradability. Nanocellulose made by bacteria has advantages, including ease of production and high purity that fostered the kind of scientific excitement reflected in the first international symposium on the topic, Brown pointed out. It therefore comes into direct contact with the tissue. The superior characteristics of nanocellulose include extreme shear thinning and fast viscosity recovery, improved dispersion and stabilization of particles etc. Nanocellulose is a naturally occurring substance that can be altered from its raw form and then used in packaging, food, technology, and many other products we use daily. Maine has become a pillar in the development and application of nanocellulose. Posted: Dec 09, 2014: A New Low-cost Process to Make Nanocellulose (Nanowerk News) Scientists from Edinburgh Napier University and Sappi have developed a low cost way to turn wood into a nanomaterial that could be used to build greener cars, thicken foods and even treat wounds.It means Sappi will be able to produce the lightweight material on a commercially viable basis – and … For instance, in insulation, nanocellulose aerogels fabricates narrower and more breathable insulation material. Nanocellulose is a fascinating material that continues to draw attention in academia and industries to untap its potentials. Nanocellulose is mainly used in implant medicine and wound care. Nanocellulose-based foams are being studied for packaging applications in order to replace polystyrene-based foams. Nanocellulose can also be used to make aerogels/foams, either homogeneously or in composite formulations. Nanocellulose can also be used as a building block in the fabrication of low-cost water filtration membranes (Figure 1) (3). Particle-stabilized emulsions, referred as Pickering emulsions (PEs), have been widely explored due to their potential practical interest in last few … Dr. Mori notes that decomposition of bioplastic depends on what it’s made of. In combination with silver chloride, antibacterial pads are made [3].Microcrystalline cellulose, however is used as a food additive E460i and also in the pharmaceutical industry.