108100-20-5Relevant articles and documents
Rapid flow-through fractionation of biomass to preserve labile aryl ether bonds in native lignin
Zhou, Hao,Xu, Jia Yun,Fu, Yingjuan,Zhang, Haiguang,Yuan, Zaiwu,Qin, Menghua,Wang, Zhaojiang
supporting information, p. 4625 - 4632 (2019/09/09)
Lignin is the second largest component of vascular plants and is the most abundant renewable aromatic polymer on our planet. The attractiveness of lignin valorization lies in its conversion into high value aromatic chemicals and biofuels through fractionation and upgrading. The literature has demonstrated that the presence of aryl ether bonds in native lignin was a key factor for the conversion, while the conventional technical lignins from carbohydrate-first processes, e.g. pulp and cellulose ethanol production, are intensively condensed and lack these linkages due to the intense delignification conditions. Here, by using the β-O-4 lignin model dimer GG, we reveal the dramatic degradation of GG and the synchronous formation of relatively stable intermediate β-O-4 dimers, C6C3 enol ether and the formylated enol ether, within the first 5 min under the conditions of 72 wt% aqueous formic acid and 130 °C, conditions suitable for biomass fractionation. Based on these findings, we propose a simple but effective strategy of rapid flow-through fractionation (RFF), which separates the dissolved lignin from the reactor in time and space, thereby preserving these labile aryl ether bonds in native lignin. The application of RFF of poplar wood with a short residence time of 2.6 min attained 75% delignification with an equivalent of the β-O-4 motif in native lignin. Structure-preserved lignins (β-O-4 retention, 75.0%-85.4%) were also harvested from wheat straw with good lignin yields (61.7%-78.5%). Contrarily, batch fractionation acted as a protracted war and resulted in extensive cleavage of aryl ether bonds as suggested by 92%-100% loss of the β-O-4 motif under the same conditions. Because of the well-preserved structure, RFF lignin can be used as a good feedstock to boost its downstream valorization, especially for hydrogenolysis into monophenolic chemicals and fuels. It is noteworthy that the carbohydrate fraction from RFF retained structural integrity and almost reached theoretical yields for glucan and xylan.
Reaction of vanilmandelic acid and 4-Hydroxybenzyl alcohol derivatives with L-ascorbic acid
Preobrazhenskaya,Rozhkov,Lazhko,Yudina,Korolev
, p. 6971 - 6976 (2007/10/03)
The interaction between vanilmandelic and L-ascorbic acids led to a cyclopent-2-en-one derivative, whereas the reaction or methyl vanilmandelate with L-ascorbic acid yielded 2-furancarboxylic acid as the major product. The model 3-substituted 4-hydroxybenzyl alcohols and L-ascorbic acid produced ascorbigen-type structures, which easily decarboxylated to give mistures of the corresponding 1-aryl-1-deoxyketoses.
