BASF : Researchers want to produce formaldehyde from CO2

• Experts from Heidelberg University, LMU Munich, BASF SE and the hte company cooperate in publicly sponsored BMBF project
• Resource-saving CO-based synthesis of the important industrial chemical formaldehyde requires an innovative catalyst system

Ludwigshafen, Germany - September 29, 2016 - The German Federal Ministry for Education and Research (BMBF) is sponsoring with around €1.5 million a joint research project of BASF SE, Heidelberg University, LMU Munich and hte GmbH as of October. The aim of the project, in which the 'Catalysis Research Laboratory' (CaRLa) jointly operated by Heidelberg University and BASF SE will be involved, is to develop catalyst systems allowing the selective hydrogenation of CO to formaldehyde.

Formaldehyde is an important basic chemical used mainly for the manufacture of polymers but also as a synthesis component for the creation of more complex molecules. At present, the chemical industry produces more than 13 million metric tons of formaldehyde per year worldwide by oxidation of methanol. Direct access through hydrogenation of COwould have the advantage that in the synthesis - depending on the methanol production route - either a hydrogen or a carbon monoxide equivalent can be saved compared to the existing production process, as a contribution to saving resources.

Most of the activities are fundamental research performed at the partners in academia. Important application aspects in potential production processes are also considered. The group of Prof. Dr. Oliver Trapp (LMU Munich) will develop novel catalyst systems and conduct reaction mechanistic studies on the conversion of CO. The group of Prof. Dr. A. Stephen K. Hashmi (Heidelberg University), who is also the new scientific director of CaRLa at Heidelberg University, will be in charge of the synthesis of new ligands and complex catalysts.

To specifically synthesize new catalyst systems, understand the reaction mechanism and optimize the catalysis on this basis, theoretical work is underway in the group of Prof. Dr. Peter Comba (Heidelberg University). hte GmbH will accompany the project by providing screening capacities, while BASF SE as a large formaldehyde producer will coordinate the project and assess the potential for economic and technological implementation.

'We are very pleased that the BMBF is sponsoring this highly attractive exploratory project,' says Dr. Thomas Schaub, overall coordinator of the project and scientific director of BASF at CaRLa. 'This gives us the possibility to identify technically usable catalysts for this synthesis route - which so far has hardly been investigated - in the perfectly networked team'. The sponsorship program of the BMBF 'CO2Plus - Material Utilization of CO to Broaden the Raw Material Basis' supports projects that broaden the raw material base of the chemical industry through the material use of CO.

About BASF
At BASF, we create chemistry for a sustainable future. We combine economic success with environmental protection and social responsibility. The approximately 112,000 employees in the BASF Group work on contributing to the success of our customers in nearly all sectors and almost every country in the world. Our portfolio is organized into five segments: Chemicals, Performance Products, Functional Materials & Solutions, Agricultural Solutions and Oil & Gas. BASF generated sales of more than €70 billion in 2015. BASF shares are traded on the stock exchanges in Frankfurt (BAS), London (BFA) and Zurich (AN). Further information at www.basf.com.