Cellulose, a linear biopolymer, is present naturally in all plants. Apart from being the planet’s predominant natural polymer, it also offers a variety of features including excellent biocompatibility, lower density, substantial strength and the most beneficial mechanical characteristics, inexpensive in cost. Applying the mechanical or chemical techniques, cellulosic materials are transformed into cellulose nanofibres (CNFs) and even cellulose nanocrystals (CNCs). These CNFs and CNCs exhibit excellent capabilities in comparison with native cellulose fibre. Nowadays, nanocellulose is being used in a variety of practical applications such as product packaging, papers as well as paperboard, food sector, healthcare, hygiene products, paints, sk...
The growing environmental concerns due to the excessive use of non-renewable petroleum based product...
Nanostructured cellulose has received tremendous attention due to its inherent unique properties suc...
In the effort toward sustainable advanced functional materials, nanocelluloses have attracted extens...
Cellulose is a linear biopolymer found naturally in plant cells such as wood and cotton. It is the w...
Recently, considerable interest has been focused on developing greener and biodegradable materials d...
Nanocellulose is the most abundant material extracted from plants, animals, and bacteria. Nanocellul...
Cellulose is the most abundant natural polymer on earth, which widely exists in various biomasses su...
There is an emerging quest for lightweight materials with excellent mechanical properties and econom...
Cellulose is the biosynthetic product from plants, animals and bacteria. Cellulose is the most abund...
International audienceResearch on nanocellulose has significantly increased over the past few decade...
This review paper provides a recent overview of current international research that is being conduct...
Nanocellulose is emerging as an important material given the abundance of cellulose, properties such...
Cellulose is the most abundant biopolymer on earth and is the chain of glucose residues that can be ...
In the effort toward sustainable advanced functional materials, nanocelluloses have attracted extens...
Natural fibers are abundant in natural resources. Natural fibers have been used in various applicati...
The growing environmental concerns due to the excessive use of non-renewable petroleum based product...
Nanostructured cellulose has received tremendous attention due to its inherent unique properties suc...
In the effort toward sustainable advanced functional materials, nanocelluloses have attracted extens...
Cellulose is a linear biopolymer found naturally in plant cells such as wood and cotton. It is the w...
Recently, considerable interest has been focused on developing greener and biodegradable materials d...
Nanocellulose is the most abundant material extracted from plants, animals, and bacteria. Nanocellul...
Cellulose is the most abundant natural polymer on earth, which widely exists in various biomasses su...
There is an emerging quest for lightweight materials with excellent mechanical properties and econom...
Cellulose is the biosynthetic product from plants, animals and bacteria. Cellulose is the most abund...
International audienceResearch on nanocellulose has significantly increased over the past few decade...
This review paper provides a recent overview of current international research that is being conduct...
Nanocellulose is emerging as an important material given the abundance of cellulose, properties such...
Cellulose is the most abundant biopolymer on earth and is the chain of glucose residues that can be ...
In the effort toward sustainable advanced functional materials, nanocelluloses have attracted extens...
Natural fibers are abundant in natural resources. Natural fibers have been used in various applicati...
The growing environmental concerns due to the excessive use of non-renewable petroleum based product...
Nanostructured cellulose has received tremendous attention due to its inherent unique properties suc...
In the effort toward sustainable advanced functional materials, nanocelluloses have attracted extens...