Production of highly antioxidant lignin nanoparticles from a hardwood technical lignin.

Eucalypt kraft lignin isolated in a LignoBoost™ pilot plant was characterized by GC-MS, ICP-OES, DSC, HPSEC, P NMR, and HSQC 2D-NMR to be used without any further processing to produce lignin nanoparticles (LNPs) by nanoprecipitation. Tetrahydrofuran (THF) was used as a solvent, and water as a non-solvent. Microscopic analysis (TEM) showed that LNPs were regularly spherical with some hollow particles dispersed in-between, and sizes were tunable by changing the solvent dripping rate onto the non-solvent.

Towards epigenetic regulation of triple-negative breast cancer via ligand-mediated nanoparticles.

Develop and analyze triple-negative breast cancer targeted nanoparticles loaded with the demethylating agent decitabine. The polymers were synthesized by ring-opening polymerization of D,L-lactide and formulated into nanoparticles via emulsion-evaporation method. The nanoparticles were characterized by physicochemical analysis as well as using breast cancer cell lineages.

Ethanol organosolv pretreatment of sugarcane bagasse assisted by organic acids and supercritical carbon dioxide.

The scCO-assisted organosolv pretreatment of sugarcane bagasse was carried out using aqueous ethanol and organic acid catalysts. Variables involved were temperature (150-190 °C), time (0-60 min), type of catalyst (acetic, citric, and oxalic acids), amount of CO (25-50 g), ethanol titer in water (0-80 vol%), and catalyst concentration (0.5 to 1.

Supercritical Fluids: A Promising Technique for Biomass Pretreatment and Fractionation.

Lignocellulosic biomasses are primarily composed of cellulose, hemicelluloses and lignin and these biopolymers are bonded together in a heterogeneous matrix that is highly recalcitrant to chemical or biological conversion processes. Thus, an efficient pretreatment technique must be selected and applied to this type of biomass in order to facilitate its utilization in biorefineries. Classical pretreatment methods tend to operate under severe conditions, leading to sugar losses by dehydration and to the release of inhibitory compounds such as furfural (2-furaldehyde), 5-hydroxy-2-methylfurfural (5-HMF), and organic acids.