2020
DOI: 10.1088/2058-8585/abaaa0
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Gap width modification on fully screen-printed coplanar Zn|MnO2 batteries

Abstract: Fully printed primary zinc-manganese dioxide (Zn|MnO2) batteries in coplanar configuration were fabricated by sequential screen printing. While electrode dimensions and transferred active masses were kept at constant levels, electrode separating gaps were incrementally enlarged from 1 mm to 5 mm. Calendering of solely zinc anodes increased interparticle contact of active material within the electrodes while the porosity of manganese dioxide based electrodes was maintained by non-calendering. Chronopotentiometr… Show more

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Cited by 4 publications
(3 citation statements)
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“…The effects of calendering on Zn|MnO 2 batteries were also investigated on both Zn and MnO 2 electrodes. [231,232] Calendering reduces the layer thickness of both electrodes and the micropore surface area of the MnO 2 cathode, which is a drawback for discharge capability and cycling life. The batteries with a calendered MnO 2 cathode showed about 40% lower discharge capacities than the uncalendered electrodes for identical discharge conditions.…”
Section: Calendering Of the Other Type Of Battery Electrodesmentioning
confidence: 99%
“…The effects of calendering on Zn|MnO 2 batteries were also investigated on both Zn and MnO 2 electrodes. [231,232] Calendering reduces the layer thickness of both electrodes and the micropore surface area of the MnO 2 cathode, which is a drawback for discharge capability and cycling life. The batteries with a calendered MnO 2 cathode showed about 40% lower discharge capacities than the uncalendered electrodes for identical discharge conditions.…”
Section: Calendering Of the Other Type Of Battery Electrodesmentioning
confidence: 99%
“…However, high resistivity of the printed devices and difficulty in the preparation of printing ink formulations are major challenges. Excitingly, fully printed batteries such as zinc−air battery, [46] lithium‐ion battery, [47] zinc−manganese dioxide battery [48] have been developed in recent years to reduce the process steps and streamline the process flow. Further efforts are still in urgent need towards extensive commercialization of printed wearable power sources.…”
Section: Requirements Of Flexible and Wearable Power Sourcesmentioning
confidence: 99%
“…In addition, the use of solar energy will not cause as much pollution and damage to the environment as the use of other energy sources. [ 25,26 ] Also, in respect of the electrolyte materials, different flexible battery, such as sodium‐ion batteries, [ 27 ] lithium manganese batteries, [ 28 ] zinc‐manganese batteries, [ 29–31 ] and flexible supercapacitors [ 32–34 ] are reported.…”
Section: Introductionmentioning
confidence: 99%