Marius Bäumel scite author profile

The need for more sustainable products and processes has led to the use of new methodologies with low carbon footprints. In this work, an efficient tandem process is demonstrated for the liquid‐phase catalytic upgrading of lignocellulosic biomass‐derived γ‐valerolactone (GVL) with trioxane (Tx) to α‐methylene‐γ‐valerolactone (MeGVL) in flow system using Cs‐loaded hierarchical beta zeolites. The introduction of mesopores along with the presence of basic sites of mild strength leads to MeGVL productivity 20 times higher than with the bulk beta zeolite, reaching 0.325 mmol min−1 gcat−1 for the best‐performing catalyst, the highest value reported so far. This catalyst proves stable upon reuse in consecutive cycles, which is ascribed to the partial depletion of the basic sites. The obtained MeGVL is subjected to visible‐light‐induced polymerization, resulting in a final material with similar properties to the widely used poly(methyl) methacrylate.

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5-Hydroxymethylfurfural Hydrodeoxygenation to 2,5-Dimethylfuran in Continuous-Flow System over Ni on Nitrogen-Doped Carbon

Brandi

Bäumel

Shekova

et al. 2020

Sustainable Chemistry

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Waste lignocellulosic biomass is sustainable and an alternative feedstock to fossil resources. Among the lignocellulosic derived compounds, 2,5-dimethylfuran (DMF) is a promising building block for chemicals, e.g., p-xylene, and a valuable biofuel. DMF can be obtained from 5-hydroxymethylfurfural (HMF) via catalytic deoxygenation using non-noble metals such as Ni in the presence of H2. Herein, we present the synthesis of DMF from HMF using 35 wt.% Ni on nitrogen-doped carbon pellets (35Ni/NDC) as a catalyst in a continuous flow system. The conversion of HMF to DMF was studied at different hydrogen pressures, reaction temperatures, and space times. At the best reaction conditions, i.e., 423 K, 8.0 MPa, and space time 6.4 kgNi h kgHMF−1, the 35Ni/NDC catalyst exhibited high catalytic activity with HMF conversion of 99 mol% and 80 mol% of DMF. These findings can potentially contribute to the transition toward the production of sustainable fine chemicals and liquid transportation fuels.

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Cover Feature: Sustainable Continuous Flow Valorization of γ‐Valerolactone with Trioxane to α‐Methylene‐γ‐Valerolactone over Basic Beta Zeolites (ChemSusChem 12/2019)

et al. 2019

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The Front Cover shows a sustainable continuous‐flow process for upgrading lignocellulosic‐biomass‐derived γ‐valerolactone to α‐methylene‐γ‐valerolactone by utilizing a tailored Cs‐loaded hierarchical beta catalyst. This work provides an alternative route in the GVL biorefinery towards bio‐based polymer. More information can be found in the Full Paper by Al‐Naji et al. on page 2628 in Issue 12, 2019 (DOI: 10.1002/cssc.201900418).

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Upgrading of lignocellulose-derived sugars to value-added chemicals via heterogeneously catalyzed continuous-flow processes

Bäumel¹

2019

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Marius Bäumel

Nickel on nitrogen-doped carbon pellets for continuous-flow hydrogenation of biomass-derived compounds in water

Sustainable Continuous Flow Valorization of γ‐Valerolactone with Trioxane to α‐Methylene‐γ‐Valerolactone over Basic Beta Zeolites

5-Hydroxymethylfurfural Hydrodeoxygenation to 2,5-Dimethylfuran in Continuous-Flow System over Ni on Nitrogen-Doped Carbon

Cover Feature: Sustainable Continuous Flow Valorization of γ‐Valerolactone with Trioxane to α‐Methylene‐γ‐Valerolactone over Basic Beta Zeolites (ChemSusChem 12/2019)

Upgrading of lignocellulose-derived sugars to value-added chemicals via heterogeneously catalyzed continuous-flow processes

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