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CMOS electrochemical pH localizer-imager

Han Sae Jung, Woo‐Bin Jung, Jun Wang, Jeffrey Abbott, Adrian Horgan, Maxime Fournier, Henry Hinton, Young‐Ha Hwang, Xavier Godron, Robert Nicol, Hongkun Park, Donhee Ham

2022Science Advances47 citationsDOIOpen Access PDF

Abstract

pH controls a large repertoire of chemical and biochemical processes in water. Densely arrayed pH microenvironments would parallelize these processes, enabling their high-throughput studies and applications. However, pH localization, let alone its arrayed realization, remains challenging because of fast diffusion of protons in water. Here, we demonstrate arrayed localizations of picoliter-scale aqueous acids, using a 256-electrochemical cell array defined on and operated by a complementary metal oxide semiconductor (CMOS)-integrated circuit. Each cell, comprising a concentric pair of cathode and anode with their current injections controlled with a sub-nanoampere resolution by the CMOS electronics, creates a local pH environment, or a pH "voxel," via confined electrochemistry. The system also monitors the spatiotemporal pH profile across the array in real time for precision pH control. We highlight the utility of this CMOS pH localizer-imager for high-throughput tasks by parallelizing pH-gated molecular state encoding and pH-regulated enzymatic DNA elongation at any selected set of cells.

Topics & Concepts

CMOSCathodeAnodeElectrochemistryThroughputComputer scienceElectrochemical cellChemistryMaterials scienceOptoelectronicsElectrodeWirelessTelecommunicationsPhysical chemistryAnalytical Chemistry and SensorsNeuroscience and Neural EngineeringElectrochemical Analysis and Applications
CMOS electrochemical pH localizer-imager | Litcius