Maya Matsunaga

Publications by Year

Research Areas

Radio Frequency Integrated Circuit Design, Microwave Engineering and Waveguides, Acoustic Wave Resonator Technologies, Microfluidic and Bio-sensing Technologies, Microwave and Dielectric Measurement Techniques

Most-Cited Works

• → A 65-nm CMOS Fully Integrated Analysis Platform Using an On-Chip Vector Network Analyzer and a Transmission-Line-Based Detection Window for Analyzing Circulating Tumor Cell and Exosome(2018)29 cited
• → A 385μm × 385μm 0.165 V 0.27 nW Fully-Integrated Supply-Modulated OOK CMOS TX in 65nm CMOS for Glasses-Free, Self-Powered, and Fuel-Cell-Embedded Continuous Glucose Monitoring Contact Lens(2018)25 cited
• → Design trade-off between spatial resolution and power consumption in CMOS biosensor circuit based on millimeter-wave LC oscillator array(2018)12 cited
• → Design and analysis of a three-dimensional millimeter-wave frequency-shift based CMOS biosensor using vertically stacked spiral inductors in LC oscillators(2018)10 cited
• → A 40 GHz fully integrated circuit with a vector network analyzer and a coplanar-line-based detection area for circulating tumor cell analysis using 65 nm CMOS technology(2018)10 cited
• → 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(2017)7 cited
• → Three-dimensional millimeter-wave frequency-shift-based CMOS biosensor using vertically stacked LC oscillators(2017)3 cited
• → Design of an Energy-Autonomous Supply-Sensing Biosensor Platform Using Biofuel Cells and Human-Body-Communication Transmitter(2018)2 cited
• → A three-dimensional millimeter-wave frequency-shift based CMOS biosensor using vertically stacked spiral inductors in LC oscillators(2019)2 cited
• → 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(2019)1 cited