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New Material Harvests Energy from Water Vapor

Discussion in 'Science & Technology' started by micropage7, Jan 12, 2013.

  1. micropage7

    micropage7

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    MIT researchers at the David H. Koch Institute for Integrative Cancer Research have developed a new material that changes its shape after absorbing water vapor.

    The new material changes its shape after absorbing tiny amounts of evaporated water, allowing it to repeatedly curl up and down. Harnessing this continuous motion could drive robotic limbs or generate enough electricity to power micro- and nanoelectronic devices, such as environmental sensors.

    "With a sensor powered by a battery, you have to replace it periodically. If you have this device, you can harvest energy from the environment so you don't have to replace it very often," says Mingming Ma, a postdoc at MIT's David H. Koch Institute for Integrative Cancer Research and lead author of a paper describing the new material in the Jan. 11 issue of Science.

    "We are very excited about this new material, and we expect as we achieve higher efficiency in converting mechanical energy into electricity, this material will find even broader applications," says Robert Langer, the David H. Koch Institute Professor at MIT and senior author of the paper. Those potential applications include large-scale, water-vapor-powered generators, or smaller generators to power wearable electronics.
    Other authors of the Science paper are Koch Institute postdoc Liang Guo and Daniel Anderson, the Samuel A. Goldblith Associate Professor of Chemical Engineering and a member of the Koch Institute and MIT's Institute for Medical Engineering and Science.

    Harvesting energy
    The new film is made from an interlocking network of two different polymers. One of the polymers, polypyrrole, forms a hard but flexible matrix that provides structural support. The other polymer, polyol-borate, is a soft gel that swells when it absorbs water.

    Previous efforts to make water-responsive films have used only polypyrrole, which shows a much weaker response on its own. "By incorporating the two different kinds of polymers, you can generate a much bigger displacement, as well as a stronger force," Guo says.

    The film harvests energy found in the water gradient between dry and water-rich environments. When the 20-micrometer-thick film lies on a surface that contains even a small amount of moisture, the bottom layer absorbs evaporated water, forcing the film to curl away from the surface. Once the bottom of the film is exposed to air, it quickly releases the moisture, somersaults forward, and starts to curl up again. As this cycle is repeated, the continuous motion converts the chemical energy of the water gradient into mechanical energy.

    Such films could act as either actuators (a type of motor) or generators. As an actuator, the material can be surprisingly powerful: The researchers demonstrated that a 25-milligram film can lift a load of glass slides 380 times its own weight, or transport a load of silver wires 10 times its own weight, by working as a potent water-powered "mini tractor." Using only water as an energy source, this film could replace the electricity-powered actuators now used to control small robotic limbs.

    "It doesn't need a lot of water," Ma says. "A very small amount of moisture would be enough."

    A key advantage of the new film is that it doesn't require manipulation of environmental conditions, as do actuators that respond to changes in temperature or acidity, says Ryan Hayward, an associate professor of polymer science and engineering at the University of Massachusetts at Amherst.

    "What's really impressive about this work is that they were able to figure out a scheme where a gradient in humidity would cause the polymer to cyclically roll up, flip over and roll in the other direction, and were able to harness that energy to do work," says Hayward, who was not part of the research team.

    Generating electricity
    The mechanical energy generated by the material can also be converted into electricity by coupling the polymer film with a piezoelectric material, which converts mechanical stress to an electric charge. This system can generate an average power of 5.6 nanowatts, which can be stored in capacitors to power ultra-low-power microelectronic devices, such as temperature and humidity sensors.

    If used to generate electricity on a larger scale, the film could harvest energy from the environment -- for example, while placed above a lake or river. Or, it could be attached to clothing, where the mere evaporation of sweat could fuel devices such as physiological monitoring sensors. "You could be running or exercising and generating power," Guo says.
    On a smaller scale, the film could power microelectricalmechanical systems (MEMS), including environmental sensors, or even smaller devices, such as nanoelectronics. The researchers are now working to improve the efficiency of the conversion of mechanical energy to electrical energy, which could allow smaller films to power larger devices.

    The research was funded by the National Heart, Lung, and Blood Institute Program of Excellence in Nanotechnology, the National Cancer Institute, and the Armed Forces Institute of Regenerative Medicine.


    http://www.sciencedaily.com/releases/2013/01/130110142127.htm
  2. Mussels

    Mussels Moderprator Staff Member

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    its a perpetual motion machine!



    the power produced is tiny, but if they make these equally tiny and put heaps of them together... good alternative/complement to solar power.
  3. Krazy Owl

    Krazy Owl New Member

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    Then we could start to se the realisation of steam-punk stuff....metallic arms made of brass. :) Maybe with some test solve the problem of breaking engines gaskets. Imagine an head gasket made of this material. Still metallic rings for cylinders but rest of gasket this material to resist oil vapors and prestone heat. Expending to seal properly more than silicone.
  4. Drone

    Drone

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    Technically speaking, the entire Universe is a perpetuum mobile. Energy is everywhere, in everything, and it's always conversed. Photosynthesis, thermoelectricity, photovoltaics, betavoltacis, fusion, fission, hydroenergetics and so on. I'm sure there's million other undiscovered energetics, the four forces permeate space-time, think of the possibilities.

    Here's a nice example:

    [​IMG]

    Piezoelectricity, so simple. Physical deformations create electricity and visa versa.

    Or gravity light:

    [​IMG]
  5. RejZoR

    RejZoR

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    Thats because LED's don't need much power. I have LED's in my car interior and they glow slighly despite the fact they are turned off. The tiny current still left in the system by the car electronics are enough to make them glow.

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