Publications

  Here you will find publications and patents relevant to the project.

Publications

  Scientific articles from the specialist literature.

1 entry
Abstract

Methanol synthesis from syngas (CO/H2 mixtures) is one of the largest manmade chemical processes with annual production reaching 100 million tons. The current industrial method proceeds at high temperatures (200–300 °C) and pressures (50–100 atm) using a copper–zinc-based heterogeneous catalyst. In contrast, here, we report a molecularly defined manganese catalyst that allows for low-temperature/low-pressure (120–150 °C, 50 bar) carbon monoxide hydrogenation to methanol. This new approach was evaluated and optimized by quantum mechanical simulations virtual high-throughput screenings. Crucial for this achievement is the use of amine-based promoters, which capture carbon monoxide to give formamide intermediates, which then undergo manganese-catalyzed hydrogenolysis, regenerating the promoter. Following this conceptually new approach, high selectivity toward methanol and catalyst turnover numbers (up to 3170) was achieved. The proposed general catalytic cycle for methanol synthesis is supported by model studies and detailed spectroscopic investigations.

Authors

Pavel Ryabchuk, Kenta Stier, Kathrin Junge, Marek P. Checinski, Matthias Beller

Source

Pavel Ryabchuk, Kenta Stier, Kathrin Junge, Marek P. Checinski, and Matthias Beller; Journal of the American Chemical Society 2019 141 (42), 16923-16929, DOI: 10.1021/jacs.9b08990

Patents

  Registered patents.

1 entry
Abstract

The invention is directed a process for catalyzed reaction of CO and H2. The catalyst is a transition metal as a central ion and at least one lewis basic ligand. Together with at least one nucleophilic promoter, CO and H2 are converted into methanol as a product.

Authors

M. Checinski, M. Beller, P. Ryabchuk, K. Junge

Source

DE102018133689A1, WO002020136003A1