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W2810982290 endingPage "131" @default.
W2810982290 startingPage "83" @default.
W2810982290 abstract "Among stoichiometric, biochemical, thermochemical, photochemical, photoelectrochemical, and electrochemical methods developed so far to convert waste-stream greenhouse carbon dioxide (CO2) gas into value added chemicals, the most current consensus is that only the electrochemical routes can deal with the problems of (1) CO2 associated global warming, (2) storing renewable energy in high-energy density liquid fuels, and (3) depletion of fossil fuels. By making certain improvements in electrolyzer design and experimental parameters to the reported electrochemical reduction of CO2 (ERC) to CO processes, which utilize room temperature ionic liquids (RTILs) as helper catalysts, similar to the H2 produced in commercial alkaline electrolyzers, the CO can also be produced with desired current densities (> 100 mA/cm2), faradaic efficiencies, and over-potentials for practice in industry. The electrochemical direct splitting of CO2 to CO process (CO2 → CO + ½O2) is more beneficial than the one (CO2 + 2H+ + 2e− → CO + H2O) involving protons (H+) in the reduction process. ERC to CO production offsets the cost incurred in process while offering all the benefits obtained from implementing the CO2 sequestration process. Because each day several countries generate several million tons of CO2 gas, implementing this ERC to CO process commercially would have a major impact on the energy economy. The improvements to be made to turn these reported lab-scale ERC processes involving nanomaterial-based active cathodic systems into industrial processes are systematically presented and explored in this chapter, citing all important and relevant references." @default.
W2810982290 created "2018-07-10" @default.
W2810982290 creator A5031226856 @default.
W2810982290 date "2018-01-01" @default.
W2810982290 modified "2023-09-29" @default.
W2810982290 title "The Electrochemical Conversion of Carbon Dioxide to Carbon Monoxide Over Nanomaterial Based Cathodic Systems: Measures to Take to Apply This Laboratory Process Industrially" @default.
W2810982290 cites W1599536855 @default.
W2810982290 cites W1602777355 @default.
W2810982290 cites W1738642004 @default.
W2810982290 cites W1753241386 @default.
W2810982290 cites W1797519687 @default.
W2810982290 cites W1808402910 @default.
W2810982290 cites W1897876079 @default.
W2810982290 cites W1914461650 @default.
W2810982290 cites W1954607021 @default.
W2810982290 cites W1964629102 @default.
W2810982290 cites W1964683949 @default.
W2810982290 cites W1964954728 @default.
W2810982290 cites W1967053472 @default.
W2810982290 cites W1967108371 @default.
W2810982290 cites W1968741218 @default.
W2810982290 cites W1972048657 @default.
W2810982290 cites W1972931641 @default.
W2810982290 cites W1975990051 @default.
W2810982290 cites W1978737659 @default.
W2810982290 cites W1981479596 @default.
W2810982290 cites W1984020769 @default.
W2810982290 cites W1985499900 @default.
W2810982290 cites W1985757919 @default.
W2810982290 cites W1987897926 @default.
W2810982290 cites W1990141370 @default.
W2810982290 cites W1991003106 @default.
W2810982290 cites W1992601541 @default.
W2810982290 cites W1993545510 @default.
W2810982290 cites W1994204840 @default.
W2810982290 cites W1996584738 @default.
W2810982290 cites W1999186005 @default.
W2810982290 cites W2001306501 @default.
W2810982290 cites W2003092971 @default.
W2810982290 cites W2003208951 @default.
W2810982290 cites W2004040943 @default.
W2810982290 cites W2005038062 @default.
W2810982290 cites W2005794697 @default.
W2810982290 cites W2006567571 @default.
W2810982290 cites W2007166720 @default.
W2810982290 cites W2007434383 @default.
W2810982290 cites W2008686504 @default.
W2810982290 cites W2010332252 @default.
W2810982290 cites W2010491470 @default.
W2810982290 cites W2011564123 @default.
W2810982290 cites W2011887848 @default.
W2810982290 cites W2012374893 @default.
W2810982290 cites W2012647592 @default.
W2810982290 cites W2014464559 @default.
W2810982290 cites W2014897468 @default.
W2810982290 cites W2016946628 @default.
W2810982290 cites W2018221287 @default.
W2810982290 cites W2018741067 @default.
W2810982290 cites W2020793798 @default.
W2810982290 cites W2020828556 @default.
W2810982290 cites W2021860166 @default.
W2810982290 cites W2022587210 @default.
W2810982290 cites W2023351605 @default.
W2810982290 cites W2024846668 @default.
W2810982290 cites W2024945073 @default.
W2810982290 cites W2026546642 @default.
W2810982290 cites W2027673173 @default.
W2810982290 cites W2027898383 @default.
W2810982290 cites W2028833654 @default.
W2810982290 cites W2028967322 @default.
W2810982290 cites W2029284814 @default.
W2810982290 cites W2030226437 @default.
W2810982290 cites W2032749248 @default.
W2810982290 cites W2033067297 @default.
W2810982290 cites W2033507953 @default.
W2810982290 cites W2036020306 @default.
W2810982290 cites W2036833311 @default.
W2810982290 cites W2037466063 @default.
W2810982290 cites W2039475059 @default.
W2810982290 cites W2039799329 @default.
W2810982290 cites W2040913860 @default.
W2810982290 cites W2041698310 @default.
W2810982290 cites W2041982608 @default.
W2810982290 cites W2043853317 @default.
W2810982290 cites W2044052301 @default.
W2810982290 cites W2044900622 @default.
W2810982290 cites W2045250499 @default.
W2810982290 cites W2046495385 @default.
W2810982290 cites W2046636307 @default.
W2810982290 cites W2046799964 @default.
W2810982290 cites W2047262859 @default.
W2810982290 cites W2048977738 @default.
W2810982290 cites W2052119281 @default.
W2810982290 cites W2052674983 @default.
W2810982290 cites W2053078375 @default.
W2810982290 cites W2053993598 @default.
W2810982290 cites W2055936075 @default.
W2810982290 cites W2056491666 @default.