Chemical Fixation of CO2 to Acrylates Using Low-Valent Molybdenum Sources Email Page
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Performer:  Brown University in Providence in State of RI Location:  Providence, Rhode Island
Project Duration:  09/01/2010 – 09/30/2013 Award Number:  FE0004498
Technology Area:  Carbon Use and Reuse Total Award Value:  $776,688
Key Technology:   DOE Share:  $617,155
Performer Share:  $159,533

Process by which CO<sub>2</sub> is reduced with<br/>ethylene using low-valent molybdenum<br/>to produce acrylic acid or valuable acrylate compounds
Process by which CO2 is reduced with
ethylene using low-valent molybdenum
to produce acrylic acid or valuable acrylate compounds

Project Description

Brown University researchers have demonstrated the viability of a bench scale reaction to utilize carbon dioxide and ethylene as reactants in the production of valuable acrylate compounds with low-valent molybdenum catalysts. Exploratory experiments have been conducted to identifying those factors which control the current catalyst limiting step in acrylic acid formation.

The project consisted of three project phases. Phase I expanded the range of molybdenum complexes capable of coupling CO2 and ethylene by defining the available ligand architectures which facilitate acrylate formation. Phase II leveraged computational and experimental mechanistic investigations to determine the catalyst coordination environment and reaction conditions necessary to enhance the catalytic limiting step, reductive acrylate elimination. Phase III included the design and preparation of an optimized molybdenum catalyst(s) for a bench scale reaction to test the feasibility of molybdenum catalyzed acrylate formation from CO2.

Project Benefits

Development of the proposed technology supports NETL’s Carbon Storage Program goal of reducing greenhouse gas (GHG) emissions by utilizing CO2 to produce useful products. The proposed technology provides fossil fuel-based power plants an alternative means for mitigating their GHG emissions.

Presentations, Papers, and Publications

Contact Information

Federal Project Manager William O'Dowd:
Technology Manager Traci Rodosta:
Principal Investigator Wesley Bernskoetter: