Add to ORKGLignocellulose biomass has a tremendous potential as renewable biomaterials for fostering the “bio-based society” and circular bioeconomy paradigm. It requires efficient use and breakdown of fiber cell walls containing mainly cellulose, hemicellulose and lignin biopolymers. Despite their great importance, there is an extensive debate on the true structure of fiber walls and knowledge on the macromolecular nano-organization is limited and remains elusive in 3D. We employed dual-axis electron tomography that allows visualization of previously unseen 3D macromolecular organization/biopolymeric nano-architecture of the secondary S2 layer of Norway spruce fiber wall. Unprecedented 3D nano-structural details with novel insights into cellulose mic...
The physicochemical properties of plant fibres are determined by the fibre morphology and structural...
The plant cell wall is a dynamic network of several biopolymers and structural proteins including ce...
Deconstruction of lignocellulosic plant cell walls to fermentable sugars by thermochemical and/or bi...
Lignocellulose biomass has a tremendous potential as renewable biomaterials for fostering the “bio-b...
The woody secondary cell walls of plants are the largest repository of renewable carbon biopolymers ...
The ultrastructural organization of cellulose elementary fibrils (EFs) in wood cell wall is consider...
Background: Besides classical utilization of wood and paper, lignocellulosic biomass has become incr...
The ultrastructural organization of cellulose elementary fibrils (EFs) in wood cell wall is consider...
The woody secondary cell walls of plants are the largest repository of renewable carbon biopolymers ...
The macromolecular organization of the secondary wall of the cells from tree xylem is in large part ...
Lignocellulosic resources have been recognized to be the most promising sustainable and renewable so...
Fundamental insights into the macromolecular architecture of plant cell walls will elucidate new str...
Plant cell walls are typically described as complex macromolecular composites consisting of an order...
The structure of cellulose microfibrils in wood is not known in detail, despite the abundance of cel...
Wood, as the most abundant carbon dioxide storing bioresource, is currently driven beyond its tradit...
The physicochemical properties of plant fibres are determined by the fibre morphology and structural...
The plant cell wall is a dynamic network of several biopolymers and structural proteins including ce...
Deconstruction of lignocellulosic plant cell walls to fermentable sugars by thermochemical and/or bi...
Lignocellulose biomass has a tremendous potential as renewable biomaterials for fostering the “bio-b...
The woody secondary cell walls of plants are the largest repository of renewable carbon biopolymers ...
The ultrastructural organization of cellulose elementary fibrils (EFs) in wood cell wall is consider...
Background: Besides classical utilization of wood and paper, lignocellulosic biomass has become incr...
The ultrastructural organization of cellulose elementary fibrils (EFs) in wood cell wall is consider...
The woody secondary cell walls of plants are the largest repository of renewable carbon biopolymers ...
The macromolecular organization of the secondary wall of the cells from tree xylem is in large part ...
Lignocellulosic resources have been recognized to be the most promising sustainable and renewable so...
Fundamental insights into the macromolecular architecture of plant cell walls will elucidate new str...
Plant cell walls are typically described as complex macromolecular composites consisting of an order...
The structure of cellulose microfibrils in wood is not known in detail, despite the abundance of cel...
Wood, as the most abundant carbon dioxide storing bioresource, is currently driven beyond its tradit...
The physicochemical properties of plant fibres are determined by the fibre morphology and structural...
The plant cell wall is a dynamic network of several biopolymers and structural proteins including ce...
Deconstruction of lignocellulosic plant cell walls to fermentable sugars by thermochemical and/or bi...