Sun, Y.-H.Y.-H.SunChen, G.-Y.G.-Y.ChenLin, C.-T.C.-T.LinHuang, J.-C.J.-C.HuangHuang, Y.-J.Y.-J.HuangWen, C.-H.C.-H.WenCHIH-TING LIN2020-06-112020-06-112016https://scholars.lib.ntu.edu.tw/handle/123456789/499157A CMOS-based ion-sensitive field-effect transistor (ISFET) is designed, fabricated, and validated as a biosensor for protein diagnosis. Utilizing 180 nm foundry process, this work experimentally demonstrates the developed dual-gated ISFET biosensor array (128 by 128 devices) has capabilities to obtain statistical measurements of pH. Furthermore, it can be used to detect several specific biomarkers, i.e. cTnI, HbA1c and HBV-DNA, for cardiac diseases, diabetes and hepatitis B respectively. This work shows benefits of the nano-scale ISFET array for biosensing applications. ? 2016 IEEE.biosensor; cTnI; HbA1c; HBV-DNA; ISFET; sensor array[SDGs]SDG3Biosensors; Diagnosis; Field effect transistors; Ion sensitive field effect transistors; Nanosensors; Nanotechnology; Sensor arrays; Biomolecular sensing; Biosensing applications; Biosensor arrays; Cardiac disease; cTnI; HbA1c; Hbv dnas; Measurements of; CMOS integrated circuitsA sub-micron CMOS-based ISFET array for biomolecular sensingconference paper10.1109/NEMS.2016.77583062-s2.0-85007227196https://www.scopus.com/inward/record.uri?eid=2-s2.0-85007227196&doi=10.1109%2fNEMS.2016.7758306&partnerID=40&md5=1970296cf383ff58e475fcfaa57af0af