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Highly Parallel Electrochemical Detector Array on a Chip

Detailed Technology Description: Cornell researchers have developed a new CMOS electrochemical detector suitable for high-throughput recording of amperometric and other electrophysiological currents from biological cells and other biological samples.

Others

Patent Application: PCT/US2008/013125

Ayers, S., Gillis, K.D., Lindau, M., Minch, B.A. (2007). Design of a CMOS Potentiostat Circuit for Electrochemical Detector Arrays. IEEE Transactions on Circuits and Systems I: Regular Papers, 54(4), 736-744.

Ayers, S., Berberian, K., Gillis, K.D., Lindau, M.,Minch, B.A. (2010). Post-CMOSFabrication of Working Electrodes for On-Chip Recordings of Transmitter Release.IEEE Transactions on Biomedical Circuits and Systems, 4(2),86-92.

*Abstract

Cornell researchers have developed a new CMOS electrochemical detector suitable for high-throughput recording of amperometric and other electrophysiological currents from biological cells and other biological samples. The detector incorporates an array of low-noise current amplifiers based on a novel potentiostat circuit and a two-dimensional array of electrodes, each of which is connected to one such "pixel" amplifier. The pixel size is reduced to cellular dimensions due to a shared amplifier architecture. This design allows for fabrication of a multi-channel amplifier integrated into a single microchip and enables simultaneous recording from a scalable number of electrodes. The device will be useful in high throughput drug testing on ion channel function, transmitter release, and chemical testing from hundreds of cells simultaneously. It can be applied in pre-clinical drug-testing, medical diagnostics, biodefense devices, and environmental testing.

Potential Applications

Highly parallel patch-clamp recordings for drug testing and research
High-throughput amperometric recordings of hormone and neurotransmitter release
Electrochemical pathogens detection
Electrochemical detection of hundreds of substances in medical diagnostics and environmental testing

Advantages

Scalable low noise current detector
Highly parallel simultaneous measurements on a single chip under controlled conditions
Eliminates bulky and expensive external amplifiers and converters
Reduced size and cost
Integrates with commonly used cell culture formats

*Licensing: Martin Teschlmt439@cornell.edu(607) 254-4454

Country/Region: USA

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