Low-temperature Activation and Catalytic Transformation of Methane to Non-CO2 Products - Tao, Franklin
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Erscheint vorauss. 10. April 2025
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"Methane is an abundant resource with harmful environmental impacts. Consequently, the transformation of methane into chemical and fuel feedstocks is highly attractive, but historically this process has required energy-intensive, high temperature conditions to achieve selective dissociation of C-H bonds. Recently significant progress has been made in achieving low-temperature methane conversion, offering access to value-added chemicals and fuels under mild conditions for energy-efficient chemical synthesis and climate remediation."--

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Produktbeschreibung
"Methane is an abundant resource with harmful environmental impacts. Consequently, the transformation of methane into chemical and fuel feedstocks is highly attractive, but historically this process has required energy-intensive, high temperature conditions to achieve selective dissociation of C-H bonds. Recently significant progress has been made in achieving low-temperature methane conversion, offering access to value-added chemicals and fuels under mild conditions for energy-efficient chemical synthesis and climate remediation."--
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Autorenporträt
Franklin Tao, PhD and Professor of Chemistry and Chemical Engineering is an elected fellow of the American Association for the Advancement of Science (AAAS) and the Royal Society of Chemistry (RSC) at the University of Kansas. He published over 200 research articles on heterogeneous catalysis for methane transformation, single-atom catalysis, surface chemistry, dynamcis of catalyst structure, in situ/operando characterization methods, and instrumentations.