Anton Hoffmann scite author profile

This study aims at investigating the impact of ionic liquid extraction on lignin structure by studying the mechanism of lignin depolymerization in 1-ethyl-3-methylimidazolium acetate EMIM [OAc]) and comparing it with that of organosolv and milled wood methods. Ionic liquid mediated lignin (ILL) using EMIM[OAc]), ethanol organosolv lignin (EOL) and milled wood lignin (MWL) were isolated from Typha capensis (TC) and subjected to several analytical characterizations. Experimental data shows that ILL exhibited a relatively lower degree of condensation, lower aromatic C-C structures and a higher aliphatic OH with values of 0.42/Ar, 1.94/Ar and 1.33/Ar moieties compared with EOL values of 0.92/Ar, 2.22/Ar and 0.51/Ar moieties respectively. The ILL was depolymerized under mild conditions giving relatively higher β-aryl ether linkages content, higher molecular mass, and exhibited closer structures and reactivity to native lignin than EOL. These insights on TC lignin depolymerization in EMIM [OAc]) acetate may contribute to better value-addition of lignocellulosic biomass.

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Lignin from Annual Plants as Raw Material Source for Flavors and Basic Chemicals

Jahn

Hoffmann

Blaesing

et al. 2020

Chemie Ingenieur Technik

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The enzymatic conversion of lignins, possibly in combination with electrochemical oxidation, makes aromatics such as syringol, guaiacol, vanillin and catechol available in the qualities required by the fragrance industry. The lignins were obtained by soda digestion from wheat straw and Miscanthus, characterized and then converted with laccases. The overall yield amounted up to 9 wt % with a product spectrum confined to four substances. Catechol was the major product, with a fraction of 75 %. It can easily be isolated by extraction with acetone.

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Modification of Lignoboost Kraft Lignin from softwoods with dihydroxybenzenes

Hoffmann

Nong

Porzel

et al. 2019

Reactive and Functional Polymers

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Fiber formation and properties of polyester/lignin blends

Pospiech

Korwitz

Eckstein

et al. 2019

J of Applied Polymer Sci

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Thermotropic liquid crystalline polyesters with varied chemical structure are synthesized by melt transesterification polycondensation. They are employed as matrix for blends with lignin materials to obtain melt-spinnable precursors for carbon fibers. The lignin samples are carefully purified by fractionation, enzymatic removal of reducing sugars, and subsequent modification of the terminal OH groups. Effective melt blending is achieved with liquid-crystalline aromatic-aliphatic polyesters having melting ranges that match the softening temperature of the lignin fractions, which is necessary to prevent thermal decomposition of the lignin. Polyester/lignin blends are partially compatibilized, phase-separated materials. The polyester/lignin materials are melt-spun successfully. The fiber properties depend on the lignin purification process. X-ray scattering reveals that orientation in lignin-containing fibers is maintained. First experiments show that the fibers can be converted successfully to carbon fibers by thermal annealing procedures.In the past, many efforts were undertaken to improve the spinnability of lignin either from the melt or from solution, in particular including: (1) chemical modification of the lignin, and (2) mixing lignin with synthetic polymers to ease processability. The chemical modification of the terminal aliphatic and aromatic OH groups interrupts the hydrogen bonds and reduces T g which Additional Supporting Information may be found in the online version of this article.

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Acetyl Groups in Typha capensis: Fate of Acetates during Organosolv and Ionosolv Pulping

et al. 2018

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During biomass fractionation, any native acetylation of lignin and heteropolysaccharide may affect the process and the resulting lignin structure. In this study, Typha capensis (TC) and its lignin isolated by milling (MWL), ionosolv (ILL) and organosolv (EOL) methods were investigated for acetyl group content using FT-Raman, 1 H NMR, 2D-NMR, back-titration, and Zemplén transesterification analytical methods. The study revealed that TC is a highly acetylated grass; extractive free TC (TC extr ) and TC MWL exhibited similar values of acetyl content: 6 wt % and 8 wt % by Zemplén transesterification, respectively, and 11 wt % by back-titration. In contrast, lignin extracted from organosolv and [EMIm][OAc] pulping lost 80% of the original acetyl groups. With a high acetyl content in the natural state, TC could be an interesting raw material in biorefinery in which acetic acid could become an important by-product.

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Anton Hoffmann

Impact of Ionic Liquid 1-Ethyl-3-Methylimidazolium Acetate Mediated Extraction on Lignin Features

Lignin from Annual Plants as Raw Material Source for Flavors and Basic Chemicals

Modification of Lignoboost Kraft Lignin from softwoods with dihydroxybenzenes

Fiber formation and properties of polyester/lignin blends

Acetyl Groups in Typha capensis: Fate of Acetates during Organosolv and Ionosolv Pulping

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