1. Madelyn Mcelfresh
  2. Presenter’s INNOVATETOMITIGATE
  3. M13 Innovation
  1. Gavin Gilbert
  2. Presenter’s INNOVATETOMITIGATE
  3. M13 Innovation
  1. Christian Thomas
  2. Presenter’s INNOVATETOMITIGATE
  3. M13 Innovation
Judges’ Queries and Presenter’s Replies
  • Icon for: Arturo Gutierrez

    Arturo Gutierrez

    Judge
    Postdoctoral Appointee
    June 8, 2015 | 04:30 p.m.

    An exotic approach, but very unique. Thanks for taking the time to take a non-traditional approach. Do you have a sense on the complexity of preparing the M13 bacteriophage and how that might affect the cost if there is widespread use of it? Sometimes if the process is more complex, the cost becomes a problem in implementing the technology.

  • Icon for: Madelyn Mcelfresh

    Madelyn Mcelfresh

    Lead Presenter
    June 10, 2015 | 03:50 p.m.

    The mutated m13 virus, when air, palladium, and lithium are added, turns into a template for conducting and holding electricity. It can help the battery hold more energy by increasing it’s surface area.This process to create this new battery isn’t expensive. The battery will last longer and withstand more recharges because the virus adds more material to the grids.

  • Icon for: Nathan Tompkins

    Nathan Tompkins

    Judge
    Assistant Director of Research and Education
    June 8, 2015 | 10:54 p.m.

    I think your idea of using biological materials to improve the storage capacity of batteries and the efficiency of power generation is excellent. I have two questions:

    1) Have you considered the scalability of using M13 in battery production? Can the bacteriophage be grown fast enough and in large enough quantities to be useful industrially?

    2) Do you have an idea of how long a battery using the M13 bacteriophage would last? If this battery was implemented in a cellphone would the battery need to be replaced at some point during the life of the phone?

  • Icon for: Madelyn Mcelfresh

    Madelyn Mcelfresh

    Lead Presenter
    June 10, 2015 | 04:17 p.m.

    We have considered the scalability of using M13 bacteriophage in battery production. The bateriophage can be grown fast enough and in large quatities to be useful industrially. According to the testing that has been recently conducted, by MIT.
    To answer your second question, there hasn’t been an exact measurment on how long a batery using M13 bacteriophage will last. However, we now have a general idea how log the battery using M13 bacteriophage will last. A battery using M13 bacteriophage will last 2-3 times longer than a lithium air battery.

  • Icon for: Daniel Jones

    Daniel Jones

    Judge
    Teacher (retired)
    June 9, 2015 | 10:38 p.m.

    Since the M13 bacteriophage is a recent discovery what sort of progress has been made in actually using it in batteries? Even in a one-off lab situation, what has it been able to do as of now?

  • Icon for: Madelyn Mcelfresh

    Madelyn Mcelfresh

    Lead Presenter
    June 10, 2015 | 04:32 p.m.

    The M13 bacteriophage is a recent dicovery, so far only expirements and tests has been ran on the M13 baceriophage. So far we have been able to discover that the M13 bacteriophage does add the material to the grid, causing it to store and create more energy.

  • Icon for: Stephanie Luff

    Stephanie Luff

    Judge
    Graduate Research Assistant
    June 10, 2015 | 08:22 a.m.

    If the M13 virus added to batteries increases their efficiency in generating energy, how is this going to help is storing the energy (from my understanding, generating renewable energy and storing it are two different problems)?

  • Icon for: Madelyn Mcelfresh

    Madelyn Mcelfresh

    Lead Presenter
    June 10, 2015 | 04:33 p.m.

    The mutated m13 virus, when air, palladium, and lithium are added, turns into a template for conducting and holding electricity. It can help the battery hold more energy by increasing it’s surface area. The battery will last longer and withstand more recharges because the virus adds more material to the grids.The M13 bacteriophage generates more energy and stores more energy, by adding more material to the grids.

Presentation Discussion
  • Icon for: Brian Drayton

    Brian Drayton

    Co-Director
    June 10, 2015 | 08:10 a.m.

    Interesting idea! Have you talked with anyone who’s worked with this technology?

  • Icon for: Madelyn Mcelfresh

    Madelyn Mcelfresh

    Lead Presenter
    June 10, 2015 | 03:31 p.m.

    Not really, but we have read many documentaries and lab reports from people testing this new technology.

  • Icon for: Divya Gandla

    Divya Gandla

    June 11, 2015 | 08:32 p.m.

    Great job! I really enjoyed learning about your innovation. I just have one question — does the virus pose any threats to humans or other animals?

  • Further posting is closed as the event has ended.