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Low-temperature Activation and Catalytic Transformation of Methane to Non-CO2 Products

Franklin Tao
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Heterogeneous catalysis

A01=Franklin Tao
Author_Franklin Tao
catalytic oxidation
catalytic transformation.

Category=TGM
chemical feedstocks
chemical production
chemical synthesis
climate change
environmental remediation
eq_bestseller
eq_isMigrated=1
eq_nobargain
eq_non-fiction
eq_tech-engineering
global warming
homogeneous catalysis
in situ characterization
in situ studies
low-temperature activation
low-temperature catalysis
metal cluster
metal oxide cluster
micropore
MO-clusters
noncatalytic activation
operando
operando characterization
organometallic catalysis
single atom catalysis
sustainable chemistry
sustainable energy
zeolite

Product details

  • ISBN 9781394193257
  • Publication Date: 12 Dec 2024
  • Publisher: John Wiley & Sons Inc
  • Publication City/Country: US
  • Product Form: Hardback
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Description

Sustainably tap one of the world’s most abundant natural resources with this essential guide

Methane is among our crucial natural resources, with myriad applications both domestic and industrial. Atmospheric accumulation of methane, however, is one of the major drivers of climate change. The increasingly urgent search for a sustainable world demands methods for the transformation of methane that maximize its potential as a source of energy and chemical production without a harmful effect on the atmosphere and local environment.

Low-Temperature Activation and Catalytic Transformation of Methane to Non-CO2 Products introduces a growing field in chemistry, chemical engineering, and energy sciences. Beginning with an overview of methane formation and its significance in chemical production, the book surveys historical transformations of methane to value-added chemicals and explains why a low-temperature route of methane transformation is necessary and significant.  It then discusses existing findings in low-temperature activation and catalytic transformation, including activations with free standing single-atom cations, free standing MO+ clusters, and broadly defined M-O clusters encapsulated in zeolite, and catalytic oxidation by molecular catalysts, metal atoms anchored in zeolites, and metal sites openly exposed on alloy nanoparticles. The book concludes with a chapter discussing current challenges and promising solutions to tackle these challenges. 

 Low-Temperature Activation and Catalytic Transformation of Methane to Non-CO2 Products readers will also find: 

  • Coverage of concepts, perspectives, and skills required for those working in this important field in catalysis research.
  • Exemplified experimental and computational results throughout, derived from existing research literature.
  • Detailed discussion of low-temperature transformation methods incorporating catalysts including zeolite, gold-palladium, and many more. 

Low-Temperature Activation and Catalytic Transformation of Methane to Non-CO2 Products is ideal for experimentalists, researchers, scientists, and engineers working in methane transformation, heterogeneous catalysis, homogeneous catalysis, sustainable chemistry, surface science, climate change mitigation, and related fields.
About Franklin Tao

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.

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