Uncovering the Structure of Lignin from Moso Bamboo with Different Tissues and Growing Ages for Efficient Ambient-Pressure Lignin Depolymerization

Abstract: Lignin is a complex and heterogeneous biomacromolecule, exhibiting significant variations in its structure based on plant species, growth stages, and tissue types. Uncovering the structure of lignin is crucial for guiding the chemical processing of bamboo and developing an efficient production of monophenols. Herein, the double enzymatic lignin (DEL) was isolated from bamboo with different tissues (parenchyma cells and fiber) and growing ages (1, 5, and 8 years), and the structural heterogeneity of this DEL wa… Show more

“…For example, most lignin separated from wood pulp waste streams is burned as fuel or disposed of as waste [ 10 ], which leads to the loss of valuable natural polymers and causes an increase in greenhouse generation. Therefore, the development of value-added functional materials from lignin is highly desirable [ 11 ].…”

Preparation of a Lignin-Based Cationic Flocculant and Its Application in Kaolin Suspension Treatment

“…For example, most lignin separated from wood pulp waste streams is burned as fuel or disposed of as waste [ 10 ], which leads to the loss of valuable natural polymers and causes an increase in greenhouse generation. Therefore, the development of value-added functional materials from lignin is highly desirable [ 11 ].…”

Preparation of a Lignin-Based Cationic Flocculant and Its Application in Kaolin Suspension Treatment

“…Similar in composition to hardwood, bamboo is mainly composed of cellulose (30%–50%), hemicellulose (10%–30%) and lignin (15%–35%). 10 Cellulose (glucan) in bamboo is a linear bio-macromolecule connected by 1,4-β-glucosidic bonds, while hemicellulose is a heterosaccharide including main xylan and minor araban with branched chains. 11 The lignin in bamboo is primarily made up of three phenylpropane monomers, including guaiacyl (30%–50%), syringyl (50%–70%) and p -hydroxyphenyl (5%–15%), which are mutually cross-linked via C–O–C (50%–70%) and C–C (10%–20%) bonds.…”

Low-chromophore lignin isolation from natural biomass with polyol-based deep eutectic solvents

Novel CRM cosine similarity mapping strategy for simultaneous in-situ visual profiling lignocellulose in plant cell walls