Nanocellulose is a collective term for nanoassemblies of macromolecular cellulose in fibrous and crystalline forms, mainly originating from woody bioresources. Fascinating physicochemical properties of nanocellulose, such as high strength, light weight, transparency, and low thermal expansion, have allowed development of nanocellulose-based functional materials, but most of these materials face serious competition from existing products. The inherent nanoarchitectures of nanocellulose cannot be reconstructed by artificial means, and they are expected to contain unknown functions that have not yet been achieved. Nanocellulose can “run its own show” in the forthcoming sustainable society through determining and highlighting its nanostructure-...
Nanocellulose is cellulose in the form of nanostructures, i.e., features not exceeding 100 nm at lea...
How do trees support their upright massive bodies? The support comes from the incredibly strong and ...
Nanostructured cellulose has received tremendous attention due to its inherent unique properties suc...
Nanocellulose is emerging as an important material given the abundance of cellulose, properties such...
In the effort toward sustainable advanced functional materials, nanocelluloses have attracted extens...
Nanocellulose (NC) has lately appeared as a member of the major promising “green” materials, garneri...
In the effort toward sustainable advanced functional materials, nanocelluloses have attracted extens...
Cellulose is the most abundant natural polymer on earth, which widely exists in various biomasses su...
It is inherently challenging to recapitulate the precise hierarchical architectures found throughout...
Cellulose, a linear biopolymer, is present naturally in all plants. Apart from being the planet’s pr...
With increasing environmental and ecological concerns due to the use of petroleum-based chemicals an...
There is an emerging quest for lightweight materials with excellent mechanical properties and econom...
Cellulose is the most abundant biopolymer on earth and is the chain of glucose residues that can be ...
The ongoing surge in demand for high-performance energy storage systems inspires the relentless purs...
Nanocellulose is the most abundant material extracted from plants, animals, and bacteria. Nanocellul...
Nanocellulose is cellulose in the form of nanostructures, i.e., features not exceeding 100 nm at lea...
How do trees support their upright massive bodies? The support comes from the incredibly strong and ...
Nanostructured cellulose has received tremendous attention due to its inherent unique properties suc...
Nanocellulose is emerging as an important material given the abundance of cellulose, properties such...
In the effort toward sustainable advanced functional materials, nanocelluloses have attracted extens...
Nanocellulose (NC) has lately appeared as a member of the major promising “green” materials, garneri...
In the effort toward sustainable advanced functional materials, nanocelluloses have attracted extens...
Cellulose is the most abundant natural polymer on earth, which widely exists in various biomasses su...
It is inherently challenging to recapitulate the precise hierarchical architectures found throughout...
Cellulose, a linear biopolymer, is present naturally in all plants. Apart from being the planet’s pr...
With increasing environmental and ecological concerns due to the use of petroleum-based chemicals an...
There is an emerging quest for lightweight materials with excellent mechanical properties and econom...
Cellulose is the most abundant biopolymer on earth and is the chain of glucose residues that can be ...
The ongoing surge in demand for high-performance energy storage systems inspires the relentless purs...
Nanocellulose is the most abundant material extracted from plants, animals, and bacteria. Nanocellul...
Nanocellulose is cellulose in the form of nanostructures, i.e., features not exceeding 100 nm at lea...
How do trees support their upright massive bodies? The support comes from the incredibly strong and ...
Nanostructured cellulose has received tremendous attention due to its inherent unique properties suc...