Catalysis and Pyrolysis

This field amalgamate facet of organic, organometallic, and inorganic chemistry. Synthesis forms a considerable component of most programs in this area. Mechanistic scrutiny are often undertaken to discover how an unexpected product is formed or to rearrange the recital of a catalytic system. Because synthesis and catalysis are essential, to the construction of new materials, Catalysts are progressively used by chemists busy in fine chemical synthesis within both industry and academia.

Reorganization of a compound into smaller and simpler compounds, or compounds of  lofty molecular weight, under elevated temperatures usually in the range of 400°C to 800°C to as high as 1400°C. It differs from combustion in that it occurs in the absence of air and therefore no oxidation takes place. The pyro-lytic disintegration of wood forms a large number of chemical substances. Some of these chemicals can be used as substitutes for conventional fuels. The dispersal of the products varies with the chemical composition of the biomass and the operating conditions.


  • Kinetics and catalysis
  • Catalysis for Chemical Synthesis
  • Bio-catalysis and Bio-transformation
  • Organometallic catalysis and Organ catalysis
  • Spectroscopy in Catalysis
  • Karrick process
  • Photo catalysis and Nano Catalysis
  • Environmental and green catalysis
  • Polymer Engineering
  • Gasification
  • Characterization of pyrolysis reaction
  • Applications of analytical pyrolysis

Related Conference of Catalysis and Pyrolysis

Catalysis and Pyrolysis Conference Speakers