Add to ORKGCellulose microfibrils are crucial for many of the remarkable mechanical properties of primary cell walls. Nevertheless, many structural features of cellulose microfibril organization in cell walls are not yet fully described. Microscopy techniques provide direct visualization of cell wall organization, and quantification of some aspects of wall microstructure is possible through image processing. Complementary to microscopy techniques, scattering yields structural information in reciprocal space over large sample areas. Using the onion epidermal wall as a model system, we introduce resonant soft X-ray scattering (RSoXS) to directly quantify the average interfibril spacing. Tuning the X-ray energy to the calcium L-edge enhances the contrast...
Structural colours are produced by constructive interference of light scattered from periodically ar...
Background: Cellulose from grasses and cereals makes up much of the potential raw material for biofu...
X-ray scattering methods allow efficient characterization of cellulosic materials, but interpreting ...
Cellulose microfibrils are crucial for many of the remarkable mechanical properties of primary cell ...
Plant cell walls present an extremely complex structure of hierarchically assembled cellulose microf...
Celery collenchyma cell walls are typical of primary plant cell walls in their composition but conta...
Background X-ray scattering is a well-established method for measuring cellulose microfibril angles...
Cellulose, the most abundant biopolymer on earth, is a versatile, energy rich material found in the ...
In the primary walls of growing plant cells, the glucose polymer cellulose is assembled into long mi...
In the primary walls of growing plant cells, the glucose polymer cellulose is assembled into long mi...
The structure of cellulose microfibrils in situ in wood from the dicotyledonous (hardwood) species c...
Wood and other plant-based resources provide abundant, renewable raw materials for a variety of appl...
BACKGROUND: Cellulose from grasses and cereals makes up much of the potential raw material for biofu...
Cellulose isolated from celery collenchyma is typical of the low-crystallinity celluloses that can b...
One hallmark of plant cells is their cell wall. They protect cells against the environment and high ...
Structural colours are produced by constructive interference of light scattered from periodically ar...
Background: Cellulose from grasses and cereals makes up much of the potential raw material for biofu...
X-ray scattering methods allow efficient characterization of cellulosic materials, but interpreting ...
Cellulose microfibrils are crucial for many of the remarkable mechanical properties of primary cell ...
Plant cell walls present an extremely complex structure of hierarchically assembled cellulose microf...
Celery collenchyma cell walls are typical of primary plant cell walls in their composition but conta...
Background X-ray scattering is a well-established method for measuring cellulose microfibril angles...
Cellulose, the most abundant biopolymer on earth, is a versatile, energy rich material found in the ...
In the primary walls of growing plant cells, the glucose polymer cellulose is assembled into long mi...
In the primary walls of growing plant cells, the glucose polymer cellulose is assembled into long mi...
The structure of cellulose microfibrils in situ in wood from the dicotyledonous (hardwood) species c...
Wood and other plant-based resources provide abundant, renewable raw materials for a variety of appl...
BACKGROUND: Cellulose from grasses and cereals makes up much of the potential raw material for biofu...
Cellulose isolated from celery collenchyma is typical of the low-crystallinity celluloses that can b...
One hallmark of plant cells is their cell wall. They protect cells against the environment and high ...
Structural colours are produced by constructive interference of light scattered from periodically ar...
Background: Cellulose from grasses and cereals makes up much of the potential raw material for biofu...
X-ray scattering methods allow efficient characterization of cellulosic materials, but interpreting ...