Biodegradable Plastics break down into soil and bacteria after disposal, and enter the nutrient cycle, unlike normal plastics which do not break down. This allows for environmentally responsible use of plastics for consumer goods.

Titan Bioplastics adapts and develops biodegradable plastics both from hemp, cannabis and traditional biodegradable materials such as PLA or Polybutyrate.  Titan also develops fillers from hemp and cannabis which boost thermoplastic properties, such as tensile and impact strength.

In addition, Titan Bioplastics can make traditional thermoplastics greener by auditing the following nanoparticle-vectored properties:

  • Better barrier properties than normal
  • Reduced or eliminated environmental leaching
  • Miscibility with other plastics which allows in-extruder blending of normally incompatible plastics into a new blended thermoplastic material.
  • Improved UV and chemical resistance
  • Improved flame retardant properties
  • Ease of receiving solid fillers by the modified thermoplastics.
  • Better dimensional stability
  • Electrical conductivity, static dissipation, and EMI shielding thermoplastics 

TITAN BioplasticS FORMULATIONS

David Abecassis is an interdisciplinary scientist who earned a degree in natural sciences and a bachelors degree in biological chemistry from the University of Toulouse France. He then went on to complete a Joint Master degree from Rutgers University where he studied biodegradation with Richard Bartha at Cook College. Upon graduation he worked in diversified polymer consulting which included a variety of polymer driven applications, everything from diapers to packaging to aerospace composites. He spent over 10 years in collaborative research in the field of thermoplastic nano-composites with Stony Brook University and Brooklyn Polytechnic Faculty, which included novel flame retardant packages, and eventually the worlds first mass produceable organoclay.

David Abecassis is a pioneer in adapting his cutting edge knowledge to biodegradable materials and sustainable plastics. As Chief Science Officer of Titan Bioplastics, David heads up R&D as well as IP efforts and implementation.

We own sustainable biotech recipes for plastic composite, graphene and nano applications.   Looking to transform your own products to make a statement and impact in market?  We can help you.  We license our master batch formulations and/or customize from our base.  Either way, you will be contributing to the new economy on the horizon in sustainability.  Join us in replacing, renewing and reducing unsustainable commodities.

ISSUED IP:

  • 8,272,842  Polymer nano composites for air movement devices
  • 8,022,123  Method for manufacturing and dispersing nanoparticles in thermoplastics.
  • 7,605,206  Method of compatibilizing non polymer solid fillers in polymeric materials and compositions therefrom.
  • 7,553,898  Flame retardant plastic compositions.
  • 7,517,930  Polymer nano composites for air movement devices.
  • 7,595,061  Method for using an induced formation of chitinase in lawn and garden soil for the control of destructive insects and microorganisms therein.



PUBLISHED APPLICATIONS:

  • ​20100261820  Novel method for manufacturing and dispersing nanoparticles in thermoplastics
  • 20100152348  Nano compatibilized novel polymer blends
  • 20100029986  Novel amine functionalized carbon nanotube
  • 20090326125  Flame retardant non halogenated silicone composition for high temperature and automotive and building construction applications
  • 20090196759  Polymer Nano composites for Air Movement Devices
  • 20090176911  Novel master-batch thermoplastic delivery system
  • 20090042044  Novel nano composite coating for the reduction of pigment particles loss and UV fade and chemical degradation for decorative & structural products made from concrete and concrete composites.
  • 20090012211  Novel biodegradable nano composites
  • 20080317987  Nano composite materials for ethanol, methanol and hydrocarbon transportation use and storage
  • 20080242594  Methods for Promoting Stem Cell Proliferation and Survival
  • 20080234408  Novel method for producing an organo-clay additive for use in polypropylene
  • 20080227899  Novel method for polymer RDP-clay nano-composites and mechanisms for polymer/polymer blending
  • 20080207808  Novel mechanism for immiscible polymer blend compatibilization
  • 20080071013  Novel thermoplastic pelletizing technology
  • 20080064802  Method for polymer-polymer compatiblization and non polymer filler dispersion and compositions made therefrom
  • 20080064798  Novel method for nano-clay particle dispersion
  • 20080023679  Novel flame retardant nano-clay
  • 20070135545  Flame retardant plastic compositions
  • 20070132144  Partially compatibilized PVC composites
  • 20070106007  Method of compatibilizing non polymer solid fillers in polymeric materials and compositions therefrom
  • 20060287421  Flame retardant non halogenated silicone composition for high temperature and automotive and building construction applications.
  • 20060205933  Pon polypeptides polynucleotides encoding same and compositions and methods utilizing same20060030660 - Polymer nano composites for air movement devices