Rapid 1024-Pixel Electrochemical Imaging At 10,000 Frames Per Second Using Monolithic Cmos Sensor And Multifunctional Data Acquisition System

Keywords

Amperometric sensors; biomedical transducers; biosensors; electrochemical devices

Abstract

Fast electrochemical imaging enables the dynamic study of electroactive molecule diffusion in neurotransmitter release from single cells and dopamine mapping in brain slices. In this paper, we discuss the design of an electrochemical imaging sensor using a monolithic complementary metal-oxide-semiconductor (CMOS) sensor array and a multifunctional data acquisition system. Using post-CMOS fabrication, the CMOS sensor integrates 1024 on-chip electrodes on the surface and contains 1024 low-noise amplifiers to simultaneous process parallel electrochemical recordings. Each electrochemical electrode and amplifier is optimized to operate at 10.38-kHz sampling rate. To support the operation of the high-throughput CMOS device, a multifunctional data acquisition device is developed to provide the required speed and accuracy. The high analog data rate of 10.63 MHz from all 1024 amplifiers is redundantly sampled by the custom-designed data acquisition system which can process up to 73.6 MHz with up to 400 Mbytes/s data rate to a computer using universal serial bus 3.0 interface. To contain the liquid above the electrochemical sensors and prevent electronic and wire damage, we packaged the monolithic sensor using a 3-D printed well. Using the presented device, 32 pixel × 32 pixel electrochemical imaging of dopamine diffusion is successfully demonstrated at over 10,000 frames per second, the fastest reported to date.

Publication Date

7-1-2018

Publication Title

IEEE Sensors Journal

Volume

18

Issue

13

Number of Pages

5507-5514

Document Type

Article

Personal Identifier

scopus

DOI Link

https://doi.org/10.1109/JSEN.2018.2835829

Socpus ID

85046816966 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/85046816966

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