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Disambiguation of "Sasagawa, Kiyotaka"

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In Vitro Long-Term Performance Evaluation and Improvement in the Response Time of CMOS-Based Implantable Glucose Sensors.

, , , , , , , , , , , , and . IEEE Des. Test, 33 (4): 37-48 (2016)

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Kiyotaka Yasuda

 

Other publications of authors with the same name

In Vitro Long-Term Performance Evaluation and Improvement in the Response Time of CMOS-Based Implantable Glucose Sensors., , , , , , , , , and 3 other author(s). IEEE Des. Test, 33 (4): 37-48 (2016)Parylene-based flexible imaging device for physiological measurement of rodent brain., , , , , , , and . IEEE SENSORS, page 1-3. IEEE, (2017)Development of Compact Readout Device for Neural Observation System using Fluorescence Imaging and Fast-scan Cyclic Voltammetry., , , , , , , , and . EMBC, page 4864-4867. IEEE, (2022)Needle-Type Imager Sensor With Band-Pass Composite Emission Filter and Parallel Fiber-Coupled Laser Excitation., , , , , , , and . IEEE Trans. Circuits Syst. I Fundam. Theory Appl., 67-I (4): 1082-1091 (2020)Thin and Scalable Hybrid Emission Filter via Plasma Etching for Low-Invasive Fluorescence Detection., , , , , , , and . Sensors, 23 (7): 3695 (April 2023)Implantable Microimaging Device for Observing Brain Activities of Rodents., , , , , , , , , and . Proc. IEEE, 105 (1): 158-166 (2017)Hemodynamic imaging using an implantable self-reset image sensor., , , , , , , and . BioCAS, page 452-455. IEEE, (2016)An implantable green fluorescence imaging device using absorption filters with high excitation light rejection ratio., , , , , , , , , and . BioCAS, page 248-251. IEEE, (2014)CMOS-based flexible multi-site retinal stimulator toward retinal prosthesis technology., , , , and . CICC, page 511-514. IEEE, (2009)Baseband signal transmission experiment for intra-brain communication with implantable image sensor., , , , , , , , , and . EMBC, page 6011-6014. IEEE, (2012)