Soft, stretchable, high power density electronic skin-based biofuel cells for scavenging energy from human sweat

This article describes the fabrication, characterization, and real-life application of a soft, stretchable electronic-skin-based biofuel cell (E-BFC) that exhibits an open circuit voltage of 0.5 V and a power density of nearly 1.2 mW cm −2 at 0.2 V, representing the highest power density recorded by...

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Published inEnergy & environmental science Vol. 10; no. 7; pp. 1581 - 1589
Main Authors Bandodkar, Amay J., You, Jung-Min, Kim, Nam-Heon, Gu, Yue, Kumar, Rajan, Mohan, A. M. Vinu, Kurniawan, Jonas, Imani, Somayeh, Nakagawa, Tatsuo, Parish, Brianna, Parthasarathy, Mukunth, Mercier, Patrick P., Xu, Sheng, Wang, Joseph
Format Journal Article
LanguageEnglish
Published 2017
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Abstract This article describes the fabrication, characterization, and real-life application of a soft, stretchable electronic-skin-based biofuel cell (E-BFC) that exhibits an open circuit voltage of 0.5 V and a power density of nearly 1.2 mW cm −2 at 0.2 V, representing the highest power density recorded by a wearable biofuel cell to date. High power density is achieved via a unique combination of lithographically-patterned stretchable electronic framework together with screen-printed, densely-packed three-dimensional carbon-nanotube-based bioanode and cathode array arranged in a stretchable “island-bridge” configuration. The E-BFC maintains its performance even under repeated strains of 50%, and is stable for two days. When applied directly to the skin of human subjects, the E-BFC generates ∼1 mW during exercise. The E-BFC is able to power conventional electronic devices, such as a light emitting diode and a Bluetooth Low Energy (BLE) radio. This is the first example of powering a BLE radio by a wearable biofuel cell. Successful generation of high power density under practical conditions and powering of conventional energy-intense electronic devices represents a major step forward in the field of soft, stretchable, wearable energy harvesting devices.
AbstractList This article describes the fabrication, characterization, and real-life application of a soft, stretchable electronic-skin-based biofuel cell (E-BFC) that exhibits an open circuit voltage of 0.5 V and a power density of nearly 1.2 mW cm −2 at 0.2 V, representing the highest power density recorded by a wearable biofuel cell to date. High power density is achieved via a unique combination of lithographically-patterned stretchable electronic framework together with screen-printed, densely-packed three-dimensional carbon-nanotube-based bioanode and cathode array arranged in a stretchable “island-bridge” configuration. The E-BFC maintains its performance even under repeated strains of 50%, and is stable for two days. When applied directly to the skin of human subjects, the E-BFC generates ∼1 mW during exercise. The E-BFC is able to power conventional electronic devices, such as a light emitting diode and a Bluetooth Low Energy (BLE) radio. This is the first example of powering a BLE radio by a wearable biofuel cell. Successful generation of high power density under practical conditions and powering of conventional energy-intense electronic devices represents a major step forward in the field of soft, stretchable, wearable energy harvesting devices.
Author Imani, Somayeh
Parthasarathy, Mukunth
Bandodkar, Amay J.
Nakagawa, Tatsuo
Xu, Sheng
Kumar, Rajan
Parish, Brianna
Mercier, Patrick P.
You, Jung-Min
Kim, Nam-Heon
Wang, Joseph
Gu, Yue
Mohan, A. M. Vinu
Kurniawan, Jonas
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  fullname: You, Jung-Min
  organization: Department of NanoEngineering, University of California, La Jolla, USA
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  organization: Department of NanoEngineering, University of California, La Jolla, USA
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  organization: Department of NanoEngineering, University of California, La Jolla, USA
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  organization: Department of NanoEngineering, University of California, La Jolla, USA
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