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Project at a Glance Contents on the CD ROM
  • Biocatalysts are natural catalysts, such as-enzymes or microbial cells, used to perform chemical transformations on organic compounds.
  • Enzymes are biocatalyst, and by their mere presence, and without being consumed in the process, enzymes can speed up chemical processes that would otherwise run very
    slowly. After the reaction is complete, the enzyme is released again, ready to start another reaction.
  • The biocatalysts, called extremozymes, produced by microorganisms are proteins that function under extreme conditions.
  • The biocatalyst in a bio fuel cell may simply promote the production of simple fuels, such as hydrogen or methane, from more complicated biochemical substrates, such as
  • These are combination of enzymes, mineral nutrients, biosufactants and fatty acids
    which enhance both aerobic and anaerobic biodegradation of organics.
  • Biocatalyst engineering is the most time consuming step, often involving two major approaches: rational design and directed evolution.
  • Biocatalysts can constitute a significant portion of the operating budget, however their cost can be reduced by reusing them when immobilized.
  • Biocatalysis can be broadly defined as the use of biological molecules (usually enzymes) to catalyse specific chemical reactions. Enzymes are complex protein
    molecules. They are produced by living organisms to catalyse the biochemical reactions required for life.
  • They can be used as biocatalysts to catalyze chemical reactions on an industrial scale in a sustainable manner.
  • Their application covers the production of desired
    products for all human material needs (e.g., food, animal feed, fine and bulk chemicals, fibers, hygiene, and environmental technology).
  • Biocatalyst capable of catalyzing a chemical conversion reaction from a substrate to a product .
  • The requirements for a useful biocatalyst are selectivity, volume efficiency, security of
    supply and technology integration.
  • The advantages of biocatalysts are efficient catalysts, environmentally acceptable, compatible, not bound to their natural role, catalyze a broad spectrum of reactions.


  • New Biocatalysts.
  • Selection Strategies for improved Biocatalysts.
  • Biocatalysis.
  • Biocatalyst for accelerated biotreatment.
  • Advantages of Biocatalysts.
  • Scope of Biocatalysis.
  • Biocatalysis-a field of exploding interest.
  • Introduction to Biocatalysis.


  • Enzyme-MSDS.
  • Msds of Biocatalyst.
  • Safety Sheet of Enzymatic Preparation.


  • BioCAT Platforms.


  • Development of cross-linked enzyme crystals as robust biocatalysts in organic media.
  • Metagenomic era for biocatalyst identification.
  • Biocatalytic Process.
  • Whole-cell biocatalysts for producing biodiesel from waste greases.
  • Biocatalysts-Production and
  • Improved biocatalysts by directed evolution and rational protein design.
  • Introduction of process-integrated biocatalysts in companies.
  • New Biocatalysts for competitive chemical process development.


  • Selection of biocatalysts for chemical synthesis.
  • Biocatalysts synthesizing deregulated cellulases.
  • Preparation of biocatalysts in bead form.
  • Self-regenerating biocatalytic or anti-icing surfaces.
  • Smart biocatalysts for organic synthesis.


  • Guidelines for reporting of biocatalytic reactions.


  • List of Manufacturers.
  • Suppliers from China.

Company Profile

  • Company from Europe.
  • Company from France.
  • Company from U.S.
  • Company1 from UK.
  • Company2 from UK.


  • Consultancy from New York.
  • Consultancy from UK.



  • Biocatalytic potential of extremophiles and extremozymes.
  • Chemical Modification of Biocatalysts.
  • Proteins as biocatalysts and biomaterials.
  • Biocatalyst bioreactors for production of fuels and chemicals.
  • Biocatalytic conversion of crudes.
  • Recent progress in biocatalyst discovery.
  • Marine Biocatalysts: Enzymatic features and applications.
  • Engineering enzymes for Biocatalysis.
  • Biocatalyst selection for a glycerol-oxidizing microbial fuel cell.


  • Cyanobacteria as biocatalysts for solar-driven biofuel production.
  • Biocatalyst development for chemicals.
  • Conference features biocatalyst design through Genomics.
  • Environmentally beneficial Biocatalysis.
  • Industrial Biocatalysis today and tomorrow.
  • Low-Cost biocatalyst for acceleration of energy efficient CO2 capture.
  • Bacterial Biocatalysts.
  • Biocatalysis-state of the art in Europe.

Market Demands

  • Biocatalysts: A green chemistry approach to industrially relevant compounds.
  • Biocatalysis2021: Approaches to a sustainable bioeconomy.
  • Technological opportunities in biotechnology.
  • Developing Biocatalysts for industrial Chiral chemicals.
  • What makes a good biocatalyst?


  • Polymers from Biocatalysts.
  • Use of Biocatalysts for the liquefaction of bituminous coal in a fluidized-bed bioreactor.
  • Industrial Biocatalysts for the bio-based economy.
  • Biocatalysis for biodiesel.
  • Biocatalysts for biomass conversion.
  • Desizing with Biocatalysts.
  • Application of Fungi as biocatalysts for the synthesis of optically pure phosphonates.
  • Whole Organism Biocatalysis.



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