Data from: Transcutaneous ultrasound energy harvesting using capacitive triboelectric technology

Hinchet R, Yoon H, Ryu H, Kim M, Choi E, Kim D, Kim S

Date Published: August 14, 2019

DOI: https://doi.org/10.5061/dryad.8pm4nv0

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Title Fig. 1D_ultrasound propagation on device
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Description Finite element method (FEM) simulation of the ultrasound acoustic pressure propagation through water and the VI-TEG.
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Title Fig. 1E_total displacement from the device by ultrasound
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Description FEM simulation of the VI-TEG’s vibrations in water at 5 mm under the 20 kHz ultrasound probe
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Title Fig.2C_Output voltage at 40M impedance_100ms time interval
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Description Triboelectric voltage at 40 MΩ impedance, measured data in 100ms time interval
Download Fig.2C_Output voltage at 40M impedance_10...al.csv (2.180 Mb)
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Title Fig.2C_Output voltage at 40M impedance_400us time interval
Description Triboelectric voltage at 40 MΩ impedance, measured data in 400us time interval
Download Fig.2C_Output voltage at 40M impedance_40...al.csv (2.167 Mb)
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Title Fig.2D_Output current_400us time interval_500uA V
Description Triboelectric current at 1 Ω impedance, measured data in 400us time interval (measured in water at 5 mm from the ultrasound probe setup at 20 kHz and 3 W/cm²)
Download Fig.2D_Output current_400us time interval... V.csv (2.238 Mb)
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Title Fig.2D_Output current_100ms time interval_500uA V
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Description Triboelectric current at 1 Ω impedance, measured data in 100ms time interval (measured in water at 5 mm from the ultrasound probe setup at 20 kHz and 3 W/cm²)
Download Fig.2D_Output current_100ms time interval... V.csv (2.271 Mb)
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Title Figure 2E_output current data files at different impedance
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Description Maximum current and power depending on the electrical impedance at 5 mm from the ultrasound probe set at a power density of 3 W/cm².
Download Figure 2E_output current data files at di...ce.zip (28.03 Mb)
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Title Fig. 2E summarized data points plot at 3W cm-2 ultrasound power
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Description Summarized data set: maximum current and power depending on the electrical impedance at 5 mm from the ultrasound probe set at a power density of 3 W/cm²
Download Fig. 2E summarized data points plot at 3W...er.opj (63.87 Kb)
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Title Figure 2F_output current data files at different impedance
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Description Maximum current and power depending on the electrical impedance at 5 mm from the ultrasound probe set at a power density of 1 W/cm².
Download Figure 2F_output current data files at di...ce.zip (30.06 Mb)
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Title Fig. 2F summarized data points plot at 1W cm-2 ultrasound power
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Description Summarized data set: maximum current and power depending on the electrical impedance at 5 mm from the ultrasound probe set at a power density of 1 W/cm²
Download Fig. 2F summarized data points plot at 1W...er.opj (64.89 Kb)
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Title Figure 3A_Charging capacitors with and without transformer
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Description Comparison test: a charge of a 4.7 mF capacitor using the integrated transformer
Download Figure 3A_Charging capacitors with and wi...er.zip (158.4 Kb)
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Title Fig.3B_charging 700uAh Li ion battery_no transformer
Downloaded 1 time
Description A charge of a 700 µAh thin-film Li-ion battery in water at 5 mm from the ultrasound probe set at 3 W/cm².
Download Fig.3B_charging 700uAh Li ion battery_no ...er.csv (4.288 Mb)
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Title Battery characterization
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Description Galvanostatic analysis of 700 uAh Li-ion rechargeable battery
Download Battery characterization.txt (394.0 Kb)
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Title Figure 3C_output voltage and current of the device at different distance from the ultrasound probe
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Description Maximum voltage and current depending on the distance from the ultrasound probe (at 3 W/cm²).
Download Figure 3C_output voltage and current of t...be.zip (11.24 Mb)
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Title Fig.3D_Ultrasound probe power dependance on output voltage and current
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Description Maximum voltage and current depending on the power of the ultrasound probe (at 5 mm).
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Title Figure 4E_Output voltage and current of the device located at 0.5cm implanted
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Description Voltage, at 40 MΩ impedance, and current, at 1 Ω impedance generated by the VI-TEGs implanted at 0.5 cm under the dog's skin.
Download Figure 4E_Output voltage and current of t...ed.zip (10.62 Mb)
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Title Figure 4F_Output voltage and current of the device located at 1.0cm implanted
Downloaded 1 time
Description Voltage, at 40 MΩ impedance, and current, at 1 Ω impedance generated by the VI-TEGs implanted at 1.0 cm under the dog's skin.
Download Figure 4F_Output voltage and current of t...ed.zip (10.52 Mb)
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When using this data, please cite the original publication:

Hinchet R, Yoon H, Ryu H, Kim M, Choi E, Kim D, Kim S (2019) Transcutaneous ultrasound energy harvesting using capacitive triboelectric technology. Science 365(6452): 491-494. https://doi.org/10.1126/science.aan3997

Additionally, please cite the Dryad data package:

Hinchet R, Yoon H, Ryu H, Kim M, Choi E, Kim D, Kim S (2019) Data from: Transcutaneous ultrasound energy harvesting using capacitive triboelectric technology. Dryad Digital Repository. https://doi.org/10.5061/dryad.8pm4nv0
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