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Communication Dans Un Congrès Année : 2015

LIGNIN UPGRADING TO AROMATICS BY A HETEROGENEOUS GOLD CATALYST IN AQUEOUS MEDIA

Résumé

With the depletion of fossil fuels, the need to develop green technologies to produce energy or chemicals increased. Lignocellulosic biomass is a promising candidate regarding its renewability and availability at a low price. Lignin, which represents ca. 30%, is a macromolecule formed by the random polymerization of three monomers: p-coumaryl, coniferyl and sinapyl alcohol[1]. This results in a three-dimensional phenolic bio-polymer. Those structures depend on the source and extraction process. Nowadays it is essentially produced by the Kraft process (paper pulp production) and used as energy source for it[2]. Nevertheless, a part of that lignin can be redirected for other applications without endangering this industry. In order to valorize lignin, we studied its transformation to produce aromatic building blocks for polymers or fine chemicals by catalytic oxidation using heterogeneous catalysts in aqueous media under mild conditions. In this work, a softwood lignin, provided by FCBA after extraction and purification from a Kraft black liquor by precipitation with H2SO4, was engaged. Alkaline solutions of lignin (0.5%wt) were treated in the presence of Au/TiO2 catalyst in a 300mL batch reactor under 40bar air at temperature varying from 50°C to 150°C. At completion, the catalyst was separated by filtration. The complexity of the reaction mixture encouraged us to design a protocol allowing evaluation of the transformation that occurred during the reaction. High molecular weight molecules were precipitated by HCl addition and separated by centrifugation giving so-called "precipitate". Then, the remaining aqueous phase was washed with dichloromethane to recover monomeric fraction while oligomeric fraction remained in water. This fractionation allowed careful analyses of the different fractions by complementary techniques (IR, NMR, GC...). The influence of different parameters was evaluated throughout our study. It was shown that base loading has a great impact on the rate of lignin depolymerization. Indeed, increasing NaOH concentration resulting in a decreased "precipitate" amount. However, it seems that addition of catalyst had no notable effect on this aspect(fig. 1). In both cases, the recovered precipitate looks alike but completely different from the starting lignin. As a matter of fact, IR analysis showed disappearance of a characteristic band of lignin corresponding to aromatic vibrations together with apparition of bands corresponding to carbonyls. Concerning the monomeric fraction, rising the amount of base improved the yields toward the target molecules; however, adding the catalyst lowered the yields in monomers by favoring over-oxidation(fig. 2). In conclusion, the catalytic oxidation of lignin has been realized in an alkaline media under mild conditions. While the base seems to favor the formation of monomeric compounds, the use of gold catalyst lowered them due to over-oxidation.
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Dates et versions

hal-01150674 , version 1 (11-05-2015)

Identifiants

  • HAL Id : hal-01150674 , version 1

Citer

C. Cabral-Almada, S. Tapin-Lingua, Silva Perez D. Da, P. Fongarland, L. Djakovitch. LIGNIN UPGRADING TO AROMATICS BY A HETEROGENEOUS GOLD CATALYST IN AQUEOUS MEDIA. 3rd International Symposium on Green Chemistry, May 2015, La Rochelle, France. ⟨hal-01150674⟩
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