Hangxing Liu scite author profile

The article presents a fully integrated multimodal and multifunctional CMOS biosensing/actuating array chip and system for multi-dimensional cellular/tissue characterization. The CMOS chip supports up to 1,568 simultaneous parallel readout channels across 21,952 individually addressable multimodal pixels with 13 µm × 13 µm 2-D pixel pitch along with 1,568 Pt reference electrodes. These features allow the CMOS array chip to perform multimodal physiological measurements on living cell/tissue samples with both high throughput and single-cell resolution. Each pixel supports three sensing and one actuating modalities, each reconfigurable for different functionalities, in the form of full array (FA) or fast scan (FS) voltage recording schemes, bright/dim optical detection, 2-/4-point impedance sensing (ZS), and biphasic current stimulation (BCS) with adjustable stimulation area for single-cell or tissue-level stimulation. Each multi-modal pixel contains an 8.84 μm × 11 μm Pt electrode, 4.16 μm × 7.2 μm photodiode (PD), and in-pixel circuits for PD measurements and pixel selection. The chip is fabricated in a standard 130nm BiCMOS process as a proof of concept. The on-chip electrodes are constructed by unique design and in-house post-CMOS fabrication processes, including a critical Al shorting of all pixels during fabrication and Al etching after fabrication that ensures a high-yield planar electrode array on CMOS with high biocompatibility and long-term measurement reliability. For demonstration, extensive biological testing is performed with human and mouse progenitor cells, in which multidimensional biophysiological data are acquired for comprehensive cellular characterization.

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Optimized microstructure and enhanced breakdown strength in Ca<inf>1−x</inf>Sr<inf>x</inf>TiO<inf>3</inf> solid solutions

Zhang

Liu

Hao

et al. 2015

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Hangxing Liu

Comparison of synthesis methods, crystal structure and characterization of strontium cobaltite powders

Effect of BaWO4 on microstructure microwave dielectric properties of Ba(Mg1/3Nb2/3)O3

A Wireless Somatosensory Feedback System Using Human Body Communication

A Multimodal and Multifunctional CMOS Cellular Interfacing Array for Digital Physiology and Pathology Featuring an Ultra Dense Pixel Array and Reconfigurable Sampling Rate

Optimized microstructure and enhanced breakdown strength in Ca<inf>1−x</inf>Sr<inf>x</inf>TiO<inf>3</inf> solid solutions

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Hangxing Liu

Comparison of synthesis methods, crystal structure and characterization of strontium cobaltite powders

Effect of BaWO4 on microstructure microwave dielectric properties of Ba(Mg1/3Nb2/3)O3

A Wireless Somatosensory Feedback System Using Human Body Communication

A Multimodal and Multifunctional CMOS Cellular Interfacing Array for Digital Physiology and Pathology Featuring an Ultra Dense Pixel Array and Reconfigurable Sampling Rate

Optimized microstructure and enhanced breakdown strength in Ca<inf>1&#x2212;x</inf>Sr<inf>x</inf>TiO<inf>3</inf> solid solutions

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Optimized microstructure and enhanced breakdown strength in Ca<inf>1−x</inf>Sr<inf>x</inf>TiO<inf>3</inf> solid solutions