Potential Solid State Battery Electrolyte Withstands 1200°C Flame

Votes: 1
Views: 4820

BIG ENERGY STORAGE CHALLENGE

The current global challenge is the safety concerns and sustainability of raw materials supply for energy storage in the face of explosion of batteries on long duration recharging based on the current liquid electrolytes in electronic devices and mobility worldwide.

GLOBAL SEARCH FOR SOLUTION

@MIT says whomever finds conductive solid state Polymer Electrolyte holds the #EVs ace ..

See: http://news.mit.edu/2015/solid-state-rechargeable-batteries-safer-longer-lasting-0817

EU Mission Commitment

EU sees €250b solid state Battery market according to: https://googleweblight.com/i?u=https://ec.europa.eu/growth/industry/policy/european-battery-alliance_en&hl=en-NG)%20googleweblight.com/i?u=https://ec

Our Innovation Solution Is Timely, Safe, Sustainable & Covered By Intellectual Property Rights

Berekotry Ltd flaunts this sustainable green conductive biopolymer from renewable materials found in every region of the world as a potential Solid state Electrolyte which also withstands 1200`C flame that erases explosion concerns.

SAFETY

We have demonstrated the safety by applying heat sources from Oxy-acetylene flame on both the Na+ & Li+ derived conductive emulsion biopolymers as regards the fire retarding potential in this short duration raw visual

https://www.youtube.com/watch?v=nOkCRAZ_exU&t=135s

The long 12-48 hrs residence time of freshly made Biopolymer in the molten phase of our proprietary conductive biopolymer before solidifying into shapes makes our novel conductive biopolymer a rare EXCELLENT 3D Printing compatible for all applications in battery prototype of all designs and sizes.

See: https://www.linkedin.com/feed/update/urn:li:activity:6485606789155942400

END-OF-LIFE DISPOSABLE WASTE CONCERNS

The reactivity of our novel polymer with Na & Li would be a great potentials for Li-ion Battery manufacturing with application in mobile devices, smart phones, electric vehicles, etc.

UNIQUENESS

The information listed below address the flammability challenges, conductivity requirements, easy mold conducting polymer and recycling of end of life of the materials in our innovation leads to zero footprint as the biopolymer is made from bio-based materials and soluble in water for final incineration at the end of life disposal.

Our summary of timely response to the challenges mentioned above:

http://wp.me/p2I0sp-2T

See demo:

https://www.youtube.com/watch?v=Yv1f5KrgtSs

More:

https://www.youtube.com/watch?v=b65Hf-FuAIQ

https://www.youtube.com/watch?v=9GNRNTDqMOw

Contact Us:

Taslim Owonikoko
Ceo/Patent Owner
Berekotry Ltd
Mobile/WhatsApp +2348034222448
http://wp.me/p2I0sp-2m
Skype : boyebid
Twitter @Berekotry @taslim0

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  • ABOUT THE ENTRANT

  • Name:
    Taslim Owonikoko
  • Type of entry:
    individual
  • Profession:
    Business Owner/Manager
  • Number of times previously entering contest:
    3
  • Taslim's favorite design and analysis tools:
    Biobased Materials alternative to Fossil
  • Taslim's hobbies and activities:
    https://bit.ly/2IWdCvl
  • Taslim belongs to these online communities:
    Linkedin
  • Taslim is inspired by:
    Sustainability of clean environment : https://t.co/WOD2H69BxQ
  • Patent status:
    patented