Advanced polymers

Polylactide (PLA) the most promising one of Biopolymers these are a type of plastics which is being manufactured from petrochemicals, generated from sustainable feed stocks such as sugar, starch or Cellulose. Till date, the use of biopolymers, includes the first generation PLA, has been limited by their Physical properties and relatively high cost to manufacture. Next generation biopolymers, are the Plastics component fabrication, Polysaccharides second generation PLA, are to be cheaper and to improve their performance and a wide variety of application to capture an increasing share of the various markets for Biopolymers. Innovations has already achieved significant success with its early investments its $1.5m investment in obesity drug developer return up to $22m, following its sale for $100m in 2013, while the sale of a small molecule drug discovery company, resulted in Innovations realizing $9.5m, a 4.7 return on investment. In year 2015, Innovations invested $14.0m in 20 ventures, helping to launch three new companies.

BioPolymers are preferred over traditional materials because of their superior properties (light weight, corrosion and shatter resistance,longevity) and lower cost. As a result, polymers have become an integral part of our lives. The development of Biopolymers from various Polylactic acids, Polysaccharides. There are various technological approaches to the production of Biopolymers from renewable sources. The fermentation industry, supported by the developments of genetic engineering, can yield microbes that more efficiently convert inexpensive raw materials into desired polymers.

  • Chemistry of biopolymers
  • Plastic component fabrication using Biopolymers
  • Polylactic acid in Biopolymers
  • Nucleic acids in Biopolymers
  • Polysaccharides in Biopolymers
  • Polynucleotide in Biopolymers
  • Micro fabrication techniques
  • Production of Biopolymers from Acetobacter xylinum
  • 3D Printing of polymers and nanopolymer microstutures
  • Additive Manufacture of polymeric materials
  • Conductive Polymer Nanocomposites by Joule Heating
  • Composite Silicon Elastomers for Cell Culture and Skin Applications
  • Frontal polymerization technique for polymers and composites

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