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A 52.3% Peak Efficiency 22nm CMOS Low-Power Light-Adaptive Self-Oscillating Voltage Doubler Using Scalable Dynamic Leakage-Suppression Logic., , , , и . LASCAS, стр. 1-4. IEEE, (2022)Simulation Study of Full Passive Magnetic Human Body Communication in 65-nm CMOS Technology for Temperature Sensing Application., , , и . ICECS, стр. 1-2. IEEE, (2020)Widely Tunable CMOS-Based Biosensor With an Active-Inductor-Based VCO for Detecting CTCs and Exosomes., , , , и . ICECS, стр. 1-2. IEEE, (2020)Design methodology for determining the number of stages in a cascaded time amplifier to minimize area consumption., , и . IEICE Electron. Express, 10 (11): 20130289 (2013)A 65-nm CMOS fully-integrated circulating tumor cell and exosome analyzer using an on-chip vector network analyzer and a transmission-line-based detection window., , , , и . ASP-DAC, стр. 19-20. ACM, (2019)Live demonstration: An extended-gate CMOS sensor array with enzyme-immobilized microbeads for redox-potential glucose detection., , , , , и . BioCAS, стр. 191. IEEE, (2014)An extended-gate CMOS sensor array with enzyme-immobilized microbeads for redox-potential glucose detection., , , , , и . BioCAS, стр. 464-467. IEEE, (2014)A fully-integrated circulating tumor cell analyzer using an on-chip vector network analyzer and a transmission-line-based detection window in 65-nm CMOS., , , , и . BioCAS, стр. 1-4. IEEE, (2017)A CMOS sensor platform with 1.2 µm × 2.05 µm electroless-plated 1024 × 1024 microelectrode array for high-sensitivity rapid direct bacteria counting., , , , и . BioCAS, стр. 460-463. IEEE, (2014)An energy-autonomous bio-sensing system using a biofuel cell and 0.19V 53μW 65nm-CMOS integrated supply-sensing sensor with a supply-insensitive temperature sensor and inductive-coupling transmitter., , , , , и . BioCAS, стр. 148-151. IEEE, (2016)