Add to ORKGMechanical agitation during enzymatic hydrolysis of insoluble plant biomass at high dry matter contents is indispensable for the initial liquefaction step in biorefining. It is known that particle size reduction is an important part of liquefaction, but the mechanisms involved are poorly understood. Here we put forward a simple model based on mechanical principles capable of capturing the result of the interaction between mechanical forces and cell wall weakening via hydrolysis of glucosidic bonds. This study illustrates that basic material science insights are relevant also within biochemistry, particularly when it comes to up-scaling of processes based on insoluble feed stocks
Plant lignocellulose constitutes an abundant and sustainable source of polysaccharides that can be c...
Abstract Background Mechanical refining is a low-capital and well-established technology used in pul...
All plant cells are surrounded by complex walls that play a role in the growth and differentiation o...
Mechanical agitation during enzymatic hydrolysis of insoluble plant biomass at high dry matter conte...
Mechanical agitation during enzymatic hydrolysis of insoluble plant biomass at high dry matter conte...
Lignocellulose breakdown in biorefineries is facilitated by enzymes and physical forces. Enzymes deg...
Efficient conversion of lignocellulosic biomass to second-generation biofuels and valuable chemicals...
Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)Efficient conversion of lignocellulosic...
Background Understanding how the digestibility of lignocellulosic biomass is affected by its morphol...
International audienceThe complex organic polymer, lignin, abundant in plants, prevents the efficien...
Thesis (Ph.D.), School of Chemical Engineering and Bioengineering, Washington State UniversityDeep u...
Enzyme saccharification still constitutes a significant portion of the overall cost in biomass to et...
International audienceMechanical size reduction is considered as a primordial step of current and fu...
Enzyme-mediated hydrolysis of lignocellulosic materials for their conversion into bioproducts would ...
Plant cell growth is regulated through manipulation of the cell wall network, which consists of orie...
Plant lignocellulose constitutes an abundant and sustainable source of polysaccharides that can be c...
Abstract Background Mechanical refining is a low-capital and well-established technology used in pul...
All plant cells are surrounded by complex walls that play a role in the growth and differentiation o...
Mechanical agitation during enzymatic hydrolysis of insoluble plant biomass at high dry matter conte...
Mechanical agitation during enzymatic hydrolysis of insoluble plant biomass at high dry matter conte...
Lignocellulose breakdown in biorefineries is facilitated by enzymes and physical forces. Enzymes deg...
Efficient conversion of lignocellulosic biomass to second-generation biofuels and valuable chemicals...
Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)Efficient conversion of lignocellulosic...
Background Understanding how the digestibility of lignocellulosic biomass is affected by its morphol...
International audienceThe complex organic polymer, lignin, abundant in plants, prevents the efficien...
Thesis (Ph.D.), School of Chemical Engineering and Bioengineering, Washington State UniversityDeep u...
Enzyme saccharification still constitutes a significant portion of the overall cost in biomass to et...
International audienceMechanical size reduction is considered as a primordial step of current and fu...
Enzyme-mediated hydrolysis of lignocellulosic materials for their conversion into bioproducts would ...
Plant cell growth is regulated through manipulation of the cell wall network, which consists of orie...
Plant lignocellulose constitutes an abundant and sustainable source of polysaccharides that can be c...
Abstract Background Mechanical refining is a low-capital and well-established technology used in pul...
All plant cells are surrounded by complex walls that play a role in the growth and differentiation o...