01987nas a2200193 4500008004100000022001400041245011600055210006900171260000800240520124700248653003901495653002101534653003801555653001601593653001101609100002201620700002201642856012901664 2019 eng d a1877-264100aFormic-acid-induced using recyclable-ionic liquids as catalysts for lignin conversion into aromatic co-products0 aFormicacidinduced using recyclableionic liquids as catalysts for cNOV3 a
Lignin has been widely named as a sustainable and renewable bioresource of energy, fuels, chemicals and materials, particularly phenolic chemicals production on Earth. These bio-derived compounds are in great potential need of biorefinery to valorize complete plant biomass. Lignin depolymerization showed a great promise approach to convert into low molecular aromatic products. In this report, high molecular weight (54,000 Da) lignin depolymerization into maximum yields (87%), (>= 95 +/- 6% mass balance) using a formic acid along with dual (-SO3H) functionalized imidazole-based recyclable (4 times) Bronsted acidic ionic liquids (BAILs) as catalysts have been investigated in H2O-CH3OH (1:5, v/v) at 120 degrees C for 1 h. The structural correlations between the lignin and aromatic products were studied by bulk (CHNS, GPC, etc.) and molecular (UV-Vis, FT-IR, NMR (1D/2D) levels experimental techniques. Additionally, the identification of aromatic products was carried out by applying HPLC, GC and GC-MS techniques. Graphic Addition of a formic acid into Bronsted acidic ionic liquids improved the catalytic efficiency significantly for lignin depolymerization into 87% low molecular weight aromatic products. [GRAPHICS] .
10aBulk and molecular levels analysis10adepolymerization10aDual functionalized ionic liquids10aFormic acid10alignin1 aSingh, Sandip, K.1 aDhepe, Paresh, L. uhttp://library.ncl.res.in/content/formic-acid-induced-using-recyclable-ionic-liquids-catalysts-lignin-conversion-aromatic-co