Add to ORKGThe heterogeneous and complex structural characteristics of lignin present a significant challenge to predict its processability (e.g., depolymerization, modifications etc.) tovaluable products. This study provides a detailed characterization and comparison of structural properties of seven representative biorefinery lignin samples derived from forest and agricultural residues, which were subjected to representative pretreatment methods. A range of wet chemistry and spectroscopy methods were applied to determine specific lignin structural characteristics such as functional groups, inter-unit linkages, and peak molecular weight. In parallel, oxidative depolymerization of these lignin samples toeither monomeric phenolic compounds or dicarboxy...
The depolymerization of lignin to produce renewable value-added building block chemicals has receive...
The efficient use of all available biomass components is of utmost interest with respect to a sustai...
To control and predict lignin properties remains very challenging due to the complexity of chemical ...
A method is developed to assess the limits of selective depolymerization, that is, splitting of aryl...
Lignocellulosic biomass is a sustainable source of renewable carbon, and it is the most abundant for...
Lignin is the second most abundant of all the natural polymers that comprise plant biomass. Its chal...
This study focused on understanding the relationship between dicarboxylic acid (DCA) yields derived ...
The development of fundamentally new valorization strategies for lignin plays a vital role in unlock...
Detailed insight into the structure and composition of industrial (technical) lignins is needed to d...
The development of fundamentally new valorization strategies for lignin plays a vital role in unlock...
Detailed insight into the structure and composition of industrial (technical) lignins is needed to d...
Detailed insight into the structure and composition of industrial (technical) lignins is needed to d...
Biorenewable material has gained a greater focus in research to produce chemicals, fuels, plastics, ...
Lignin is one of the most abundant and diverse biopolymers on the planet, comprising approximately o...
Lignin is the second most abundant polymer in the world after cellulose. Therefore, characterization...
The depolymerization of lignin to produce renewable value-added building block chemicals has receive...
The efficient use of all available biomass components is of utmost interest with respect to a sustai...
To control and predict lignin properties remains very challenging due to the complexity of chemical ...
A method is developed to assess the limits of selective depolymerization, that is, splitting of aryl...
Lignocellulosic biomass is a sustainable source of renewable carbon, and it is the most abundant for...
Lignin is the second most abundant of all the natural polymers that comprise plant biomass. Its chal...
This study focused on understanding the relationship between dicarboxylic acid (DCA) yields derived ...
The development of fundamentally new valorization strategies for lignin plays a vital role in unlock...
Detailed insight into the structure and composition of industrial (technical) lignins is needed to d...
The development of fundamentally new valorization strategies for lignin plays a vital role in unlock...
Detailed insight into the structure and composition of industrial (technical) lignins is needed to d...
Detailed insight into the structure and composition of industrial (technical) lignins is needed to d...
Biorenewable material has gained a greater focus in research to produce chemicals, fuels, plastics, ...
Lignin is one of the most abundant and diverse biopolymers on the planet, comprising approximately o...
Lignin is the second most abundant polymer in the world after cellulose. Therefore, characterization...
The depolymerization of lignin to produce renewable value-added building block chemicals has receive...
The efficient use of all available biomass components is of utmost interest with respect to a sustai...
To control and predict lignin properties remains very challenging due to the complexity of chemical ...