Feb 12, 2020 · An ultra-high frame rate and high spatial resolution ion-sensing Lab-on-Chip platform using a 128 × 128 CMOS ISFET array is presented.

This paper presents a 128 × 128 ISFET array with current mode readout peripherals for real-time ion imaging. Current-mode operation is employed to achieve ...

This paper presents a 128 × 128 ISFET array with current mode readout peripherals for real-time ion imaging that will increase the current temporal limit of ...

An ultra-high frame rate and high spatial resolution ion-sensing Lab-on-Chip platform using a 128 × 128 CMOS ISFET array is presented. Current mode ...

TL;DR: This paper presents a robust, low-power and compact ion-sensitive field-effect transistor (ISFET) sensing front-end for pH reaction monitoring using ...

Abstract: This paper presents a 128 × 128 ISFET array with current mode readout peripherals for real-time ion imaging. Current-mode operation is employed to ...

In this paper, a Lab-on-Chip platform with ultra-high throughput and real-time image compression for high speed ion imaging is presented.

Oct 22, 2024 · In this paper, a Lab-on-Chip platform with ultra-high throughput and real-time image compression for high speed ion imaging is presented.

A 128× 128 current-mode ultra-high frame rate ISFET array with in-pixel calibration for real-time ion imaging J Zeng, L Kuang, N Miscourides, P Georgiou

Abstract. In this paper, a Lab-on-Chip platform with ultra-high throughput and real-time image compression for high speed ion imaging is presented.