Material design of biodegradable primary batteries: boosting operating voltage by substituting the hydrogen evolution reaction at the cathode

Yamada, Shunsuke; Honda, Takashi

doi:10.1039/d4nr03321c

Nanoscale

2024

DOI: 10.1039/d4nr03321c

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Material design of biodegradable primary batteries: boosting operating voltage by substituting the hydrogen evolution reaction at the cathode

Shunsuke Yamada,

Takashi Honda

Abstract: Transient primary batteries (TPBs) degrade after use without leaving harmful toxic substances, providing power sources for developing low-invasive and environmentally benign sensing platforms. Magnesium and zinc, both abundant on Earth,...

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Cited by 2 publications

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Supramolecular Ionic Gels for Stretchable Electronics and Future Directions

Yamada,

Honda

2024

ACS Mater. Au

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Ionic gels (IGs), ionic liquids (ILs) dispersed in polymers, exhibit extremely low vapor pressure, electrochemical and thermal stability, and excellent mechanical characteristics; therefore, they are used for fabricating stretchable sensors, electrochemical transistors, and energy storage devices. Although such characteristics are promising for flexible and stretchable electronics, the mechanical stress-induced ruptured covalent bonds forming polymer networks cannot recover owing to the irreversible interaction between the bonds. Physical cross-linking via noncovalent bonds enables the interaction of polymers and ILs to form supramolecular IGs (SIGs), which exhibit favorable characteristics for wearable devices that conventional IGs with noncovalent bonds cannot achieve. Herein, we review recent material designs and interactions used for fabricating SIGs, such as ionic interactions and hydrogen bonding. We present SIG characteristics achieved via the interaction of polymers and ILs, such as extreme toughness, self-healing capability, and self-adhesion favorable for human body sensors. We conclude this Perspective by discussing the potential of SIGs as a power source for implants, wearable devices, and environmental sensing applications.

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Supramolecular Ionic Gels for Stretchable Electronics and Future Directions

Yamada,

Honda

2024

ACS Mater. Au

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Development of supramolecular ionic gels with self-healing capability and biodegradability using a bioderived ionic liquid and poly(vinyl alcohol)

Yamada,

Honda

2025

Nanoscale

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Material design of biodegradable primary batteries: boosting operating voltage by substituting the hydrogen evolution reaction at the cathode

Abstract: Transient primary batteries (TPBs) degrade after use without leaving harmful toxic substances, providing power sources for developing low-invasive and environmentally benign sensing platforms. Magnesium and zinc, both abundant on Earth,...

Cited by 2 publications

References 89 publications

Supramolecular Ionic Gels for Stretchable Electronics and Future Directions

Supramolecular Ionic Gels for Stretchable Electronics and Future Directions

Development of supramolecular ionic gels with self-healing capability and biodegradability using a bioderived ionic liquid and poly(vinyl alcohol)

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