High-Performance Zn-Ion Microbatteries by Subtractive Manufacturing

Abstract: Microbatteries are indispensable to power emerging miniaturized electronics for medical, environmental, or stealth applications. However, they are usually fabricated by additive printing processes, limiting their sizes and energy densities. Here, we develop a subtractive manufacturing process by slicing assembled thin-film zinc-ion batteries into microcells in batches using optimized preintercalated MnO2 (K0.27MnO2·0.54H2O, KMO) as cathodes. The composite cathode consisting of KMO and reduced graphene oxide (r… Show more

“…These microbatteries could not only lighten an LED at a strain of 90% (Figure 13h), but also be closely attached to a human skin and provide reliable power for an LED even when the knuckles were bent (Figure 13i). [128] Although the island-bridge structure enabled the fabrication of stretchable electrodes, the stretchability is limited by the wavelengths and amplitudes of the connecting bridges, which are composed of highly conductive metals and stretchable elastomers, and are usually patterned by 3D or screen printing. c) Cycling performance of the stretchable Zn//MnO 2 battery with strains ranging from 0% to 50% at a current density of 1C.…”

Recent Advances on Stretchable Aqueous Zinc‐Ion Batteries for Wearable Electronics

“…These microbatteries could not only lighten an LED at a strain of 90% (Figure 13h), but also be closely attached to a human skin and provide reliable power for an LED even when the knuckles were bent (Figure 13i). [128] Although the island-bridge structure enabled the fabrication of stretchable electrodes, the stretchability is limited by the wavelengths and amplitudes of the connecting bridges, which are composed of highly conductive metals and stretchable elastomers, and are usually patterned by 3D or screen printing. c) Cycling performance of the stretchable Zn//MnO 2 battery with strains ranging from 0% to 50% at a current density of 1C.…”

Recent Advances on Stretchable Aqueous Zinc‐Ion Batteries for Wearable Electronics

Exploring role of microbatteries in enhancing sustainability and functionality of implantable biosensors and bioelectronics

Boosting Zn2+ intercalation in manganese oxides for aqueous zinc ion batteries via delocalizing the d-electrons spin states of Mn site