Shunya Murakami
Orcid: 0000-0001-5215-7235Affiliations:
- Nagoya University, Japan
According to our database1,
Shunya Murakami
authored at least 18 papers
between 2018 and 2020.
Collaborative distances:
Collaborative distances:
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Bibliography
2020
Design of 33 GHz 65-nm-CMOS Small-Formfactor Direct-Conversion Receiver for Non-Invasive Continuous Glucose Monitoring.
Proceedings of the 27th IEEE International Conference on Electronics, Circuits and Systems, 2020
Widely Tunable CMOS-Based Biosensor With an Active-Inductor-Based VCO for Detecting CTCs and Exosomes.
Proceedings of the 27th IEEE International Conference on Electronics, Circuits and Systems, 2020
2019
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.
IEEE Trans. Biomed. Circuits Syst., 2019
Design of a Self-Controlled Dual-Oscillator-Based Supply Voltage Monitor for Biofuel-Cell-Combined Biosensing Systems in 65-nm CMOS and 55-nm DDC CMOS.
IEEE Trans. Biomed. Circuits Syst., 2019
A 385×385μm<sup>2</sup> 0.165V 0.27nW Fully-Integrated Supply-Modulated OOK Transmitter in 65nm CMOS for Glasses-Free, Self-Powered, and Fuel-Cell-Embedded Continuous Glucose Monitoring Contact Lens.
IEICE Trans. Electron., 2019
An FSK Inductive-Coupling Transceiver Using 60mV 0.64fJ/bit 0.0016mm<sup>2</sup> Load-Modulated Transmitter and LC-Oscillator-Based Receiver in 65nm CMOS for Energy-Budget-Unbalanced Application.
IEICE Trans. Electron., 2019
A 40-GHz Fully-Integrated CMOS-Based Biosensor Circuit with an On-Chip Vector Network Analyzer for Circulating Tumor Cells Analysis.
Proceedings of the 2019 IEEE Nordic Circuits and Systems Conference, 2019
A 65-nm CMOS 1.4-nW Self-Controlled Dual-Oscillator-Based Supply Voltage Monitor for Biofuel-Cell-Combined Biosensing Systems.
Proceedings of the IEEE International Symposium on Circuits and Systems, 2019
Verification of Inductive-Coupling-Based CMOS Biosensor Focusing on Dielectric Loss of β-Dispersion for Detecting Exosomes Through Electromagnetic Simulation.
Proceedings of the 26th IEEE International Conference on Electronics, Circuits and Systems, 2019
A Solar-Cell-Assisted, 99.66% Biofuel Cell Area Reduced, Biofuel-Cell-Powered Wireless Biosensing System in 65-nm CMOS for Continuous Glucose Monitoring Contact Lenses.
Proceedings of the 26th IEEE International Conference on Electronics, Circuits and Systems, 2019
A 2.1-nW Burst-Pulse-Counting Supply Voltage Monitor for Biofuel-Cell-Combined Biosensing Systems in 180-nm CMOS.
Proceedings of the 2019 IEEE Biomedical Circuits and Systems Conference, 2019
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.
Proceedings of the 24th Asia and South Pacific Design Automation Conference, 2019
Design of 385 x 385 μm<sup>2</sup> 0.165V 270pW fully-integrated supply-modulated OOK transmitter in 65nm CMOS for glasses-free, self-powered, and fuel-cell-embedded continuous glucose monitoring contact lens.
Proceedings of the 24th Asia and South Pacific Design Automation Conference, 2019
LC-Voltage-Controlled-Oscillator-Based Biosensor in 180-nm CMOS Process Targeting β-Dispersion for Detecting Exosomes.
Proceedings of the 2019 IEEE Asia Pacific Conference on Circuits and Systems, 2019
2018
A 6.1-nA Fully Integrated CMOS Supply Modulated OOK Transmitter in 55-nm DDC CMOS for Glasses-Free, Self-Powered, and Fuel-Cell-Embedded Continuous Glucose Monitoring Contact Lens.
IEEE Trans. Circuits Syst. II Express Briefs, 2018
Live Demonstration: 385 × 385 μm2 0.165V 270pW Fully-Integrated Supply-Modulated OOK Tx in 65nm CMOS for Glasses-Free, Self-Powered, and Fuel-Cell-Embedded Continuous Glucose Monitoring Contact Lens.
Proceedings of the 2018 IEEE Biomedical Circuits and Systems Conference, 2018
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.
Proceedings of the 2018 IEEE Biomedical Circuits and Systems Conference, 2018
A BER-Modulated Inductive-Coupling Transceiver Using Dynamic Intermediate Interference Control Technique for Low-Power Communication.
Proceedings of the 2018 IEEE Asia Pacific Conference on Circuits and Systems, 2018