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Cobalt NOT going to zero!, page-7

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    Not sure if this is good thing for cobolt could be in near future



    Coordination trick reinvents cobalt and nickel as carbon reduction catalysts

    BY LYNN MURPHY 4 APRIL 2018


    When it comes to reducing carbon dioxide, being well coordinated is a disadvantage

    Scientists in Japan have shown that they can use coordination number to turn first row transition metals into carbon dioxide reduction catalysts.

    Reducing atmospheric carbon dioxide to carbon monoxide is a potential route to fuels and chemical feedstock that helps mitigate climate change at the same time. Capturing and converting carbon dioxide, however, is expensive and energy-intensive. Recently, scientists have turned to electrochemical methods to reduce carbon dioxide. Electrochemical methods are easy to control and scale, and their electrolytes are easy to recycle. However, the price and poor efficiency of electrochemical catalysts means that commercial catalysts for converting carbon dioxide are still out of reach.

    Now, Kazuhide Kamiya from Osaka University and his colleagues have paved the way for reducing carbon dioxide using cheap and abundant metals previously thought to be useless. The researchers made nickel and cobalt complexes with different ligands to investigate if changing the metal’s coordination number could improve their ability to reduce carbon dioxide.

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    Source: © Royal Society of Chemistry

    Modulating the coordination number of active centers could see metals used in the carbon dioxide reduction reaction that had previously been dismissed

    They made covalent triazine frameworks that stabilised the nickel and cobalt centres without saturating their first coordination spheres, as well as nickel and cobalt complexes containing tetraphenylporphyrin supports, where the metal centres were coordinated to more ligands. The covalent triazine framework metal complexes had a lower free energy barrier for converting carbon dioxide to carbon monoxide. These results show that reducing the number of electrons in the outer shell of the transition metal species reduced the Gibbs free energy change and increased the metal’s efficiency as a carbon dioxide reduction catalyst.


    Source: © Royal Society of Chemistry

    Nickel sites in the covalent triazine framework

    Kamiya believes that these results have the potential to change the direction of carbon dioxide reduction research. ‘Generally, in the field of organometallic electrocatalysts, it is believed that there is strong relation between metal species and reaction. However, our work might defeat these stereotypical images between metal and reaction.’

    However, the results are preliminary and the researchers acknowledge that the covalent triazine framework is not stable enough for industrial-scale applications. Krishnan Rajeshwar, an electrochemical catalysis expert from the University of Texas at Arlington, US, says ‘one limitation is that only the two electron reduction route is demonstrated. More practically important are deeper reduction pathways leading to liquid products [such as alcohols].’

    The team has begun to test more transition metals with varying coordination numbers. ‘We have already synthesised a framework with coordination numbers below 3 … we expect that cobalt in this low coordinative framework will reduce carbon dioxide, not only to carbon monoxide, but to hydrocarbons, such as methane, because cobalt sites with the lower coordination numbers bind carbon monoxide more strongly.’


    This paper is open access

    P Su et al, Chem. Sci., 2018, DOI: 10.1039/c8sc00604k
 
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