Researchers have demonstrated a new technique for generating electricity by harvesting energy from mechanical vibrations of the environment.

The new electricity generation technology could be introduced on an industrial scale within three to six years, researchers said.

Energy harvesters are needed, for example, in wireless self-powered sensors and medical implants, where they could ultimately replace batteries.

In the future, energy harvesters can open up new opportunities in many application areas such as wearable electronics.

Research scientists at VTT Technical Research Centre of Finland have successfully generated energy by utilising the charging phenomenon that occurs naturally between two bodies with different work functions.

Work function is the amount of energy needed to remove an electron from a solid and it determines, for example, the well-known photoelectric effect.

When two conducting bodies with different work functions are connected to each other electrically, they accumulate opposite charges.

Moving of these bodies with respect to each other generates energy because of the attractive electrostatic force between the opposite charges.

In VTT’s experiment the energy generated by this motion was converted into useful electrical power by connecting the bodies to an external circuit. This new energy conversion technique also works with semiconductors.

In many sensor applications and medical implants such as pacemakers, electricity is typically provided by batteries.

Research into small energy harvesters that turn mechanical vibration into electricity has focused on piezoelectric and electrostatic devices.

Unlike these devices VTT’s technique does not require an integrated battery, electrets, a dielectric material that has a quasi-permanent electric charge, or piezo materials.

The findings were published in the journal Scientific Reports.

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