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Innovations in Water Desalination, Gas Mixture Separation, Biofuel Production, and Bacteria-powered Batteries

  • ID: 4618084
  • Report
  • August 2018
  • Region: Global
  • 15 Pages
  • Frost & Sullivan
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 This edition of the Industrial Bioprocessing TOE features trends and innovations in application of carbon composite membrane for efficient water desalination, atom-thick graphene membrane for gas mixture separation, and high-performance bacteria-powered biobatteries. The TOE also focuses on an alternative approach to protect yeast from the pretreatment chemicals in the biofuel production process, which enables significant improvement in biofuel yields.
 
The Industrial Bioprocessing TechVision Opportunity Engine (TOE) provides intelligence on technologies, processes and strategic insights of industries involving bioprocessing, including innovations in the development and production of chemicals, pharmaceuticals, nutraceuticals, alternative fuels, chemical feedstocks, food and beverages, and consumer products.
 
 Keywords:

  •  Nanoporous Carbon Composite Membrane
  •  Atom-Thick Graphene Membrane
  •  Gas Mixture Separation
  •  Engineered Yeast
  •  Gene Editing
  •  Biocomposite
  •  Bacteria-Powered Biobatteries
Note: Product cover images may vary from those shown
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 1. Innovations in Water Desalination, Gas Mixture Separation, Biofuel Production, and Bacteria-powered Batteries
    
Recent Developments in Water Desalination, Gas Mixture Separation, Biofuel Production, and Bacteria-powered Batteries

  • Carbon Composite Membrane for Water Desalination
  • Nanoporous Graphene Membrane for Gas Mixture Separation
  • Engineered Yeast with Improved Tolerance to Inhibitory Compounds
  • Wood-based Biocomposite is a Cost-competitive Alternative to Plastic
  • High-performance, Self-biodegradable Bacteria-powered Batteries
  • Industry Contacts
Note: Product cover images may vary from those shown
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