Tobias Müller scite author profile

CO conversion covers a wide range of possible application areas from fuels to bulk and commodity chemicals and even to specialty products with biological activity such as pharmaceuticals. In the present review, we discuss selected examples in these areas in a combined analysis of the state-of-the-art of synthetic methodologies and processes with their life cycle assessment. Thereby, we attempted to assess the potential to reduce the environmental footprint in these application fields relative to the current petrochemical value chain. This analysis and discussion differs significantly from a viewpoint on CO utilization as a measure for global CO mitigation. Whereas the latter focuses on reducing the end-of-pipe problem "CO emissions" from todays' industries, the approach taken here tries to identify opportunities by exploiting a novel feedstock that avoids the utilization of fossil resource in transition toward more sustainable future production. Thus, the motivation to develop CO-based chemistry does not depend primarily on the absolute amount of CO emissions that can be remediated by a single technology. Rather, CO-based chemistry is stimulated by the significance of the relative improvement in carbon balance and other critical factors defining the environmental impact of chemical production in all relevant sectors in accord with the principles of green chemistry.

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Hydroamination: Direct Addition of Amines to Alkenes and Alkynes

Müller

et al. 2008

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Worldwide innovations in the development of carbon capture technologies and the utilization of CO2

Markewitz

Kuckshinrichs

Leitner

et al. 2012

Energy Environ. Sci.

1,067

608

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Tobias Müller

Sustainable Conversion of Carbon Dioxide: An Integrated Review of Catalysis and Life Cycle Assessment

Hydroamination: Direct Addition of Amines to Alkenes and Alkynes

Worldwide innovations in the development of carbon capture technologies and the utilization of CO2

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