Researchers have discovered a molecule that can destroy cavity-causing bacteria in less than one minute, and could even be added to candies. The molecule will kill Streptococcus Mutans after being held the mouth for 60 seconds, and will also continue to kill the bacteria for several hours after use. It can be used in a number of products, including chewing gum, mouthwash, and toothpastes.

Why not create bomb sniffing plants? They will be able to screen the air and provide a warning system for dangerous substances such as explosives. Plant proteins will react to airborne pollutants or trace chemicals from explosives with visible responses, such as blanching white.

The idea is to create polymers that could be used to make paint that can heal its own scratches when exposed to UV light. The new polymers are to be using a method known as supramolecular assembly. Polymers made of small molecules will be formed into chains bound by metal ions. When these molecules are exposed to UV light, they will become temporarily unattached, forming a liquid that will fill in the scratches in under a minute. The molecules will reassemble and resolidify once...

The new application will help ease (or feed) the fears of people worried about their exposure to radiation through cell-phone use. The application will use the mobile phone's own internal mechanisms and a patent-pending technology to determine the amount of radiation output and user exposure. The system will analyze the data and send alerts when levels are high, and will offer suggestions as to how to reduce radiation exposure.

It was proved that the bacteria in a sheep's stomach that enable it to digest cellulose can also help clean TNT contaminated soil. The TNT breaks down completely, leaving no trace in the animal's feces. Why not plant grasses in TNT contaminated soil and set the sheep free to graze and clear the land at the same time. According to my estimations, a flock of 20 sheep could completely clear an acre of TNT residue in less than three years.

A new form of biodegradable golf balls made from lobster shells will make use of the bio-waste that is ordinarily sent to a landfill. The balls will be made of crushed lobster shells mixed with a biodegradable binder and coating.

My idea is to use piezoelectricity to generate energy. Piezoelectricity is the charge that accumulates in response to applied mechanical strain, such as the vibrations of vehicles driving on roads. The piezoelectric sensors are inexpensive and can be installed during regular repaving. When utilized on a single lane, two mile stretch of road, the sensors could produce up to 44 megawatts of electricity each year, which is enough to power 30,800 homes for a year.

The idea is to develop a new fire-resistant fabric made of renewable materials such as clay and lobster shells. The material will be made up of alternating fibers one-thousandth the width of a human hair, which will allow the polymer liquid to soak in and coat each individual strand. The coating will expand slightly when exposed to a flame, creating a protective bubble that will prevent the fabric from igniting. The coating will not affect the fabric's texture, color, or...

Why not use magma as a potential source of geothermal energy? It is actually able to power up to 30,000 homes. FYI, magma can produce dry steam at 750 degrees Fahrenheit, which can generate up to 25 megawatts of electricity. The usual geothermal well can produce 5 to 8 megawatts of electricity.

A new technology is able to use ordinary light to create holographic images, opening to door to 3D displays without the need for special screens or glasses. The new technology will use the diffraction of free electrons on thin metal films. When the electrons are excited by incoming protons, they begin to emit colored light at a specific wavelength. These excited electrons will emit a different color of light depending upon the angle of the incoming proton, and bouncing this light...