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Nonlinear Microresonator Mass Sensor

Summary: Researchers at Purdue University have developed a new resonating mass sensor that improves the precision of this type of sensor. Instead of measuring the change in frequency, which provides a linear measurement, this new design measures the activation voltage that is needed to return the sensor to its natural resonance. This provides a nonlinear measurement, which can be used to calculate the attached mass better than frequency shift measurements. The resonator performance is also independent of the quality factor (except in higher voltages) and improves the accuracy of the device. Simulations predict that this new type of sensor would allow sub-picogram masses to be measured, not possible until now.

Technology Benefits: Nonlinear measurement improves precisionIndependent of quality factorSub-picogram measurements possible

Technology Application: Nanoelectronics

Detailed Technology Description: Anil BajajPurdue Mechanical Engineering

Countries: United States

Application No.: 7,726,189

*Abstract

*Background: Microresonator mass sensors have allowed for high sensitivity in measuring masses as small as 0.7 picograms. These sensors rely on an oscillating resonator, which has a constant natural frequency. When another object is placed on the resonator, the frequency is changed; this change can be measured and used to mass of the other object.

*IP Issue Date: Jun 1, 2010

*IP Type: Cont-in-Part

*Stage of Development: Prototype Testing

*Web Links: Purdue Office of Technology CommercializationPurdueInnovation and EntrepreneurshipAnil BajajPurdue Mechanical Engineering

Country/Region: USA

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