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3D printed cellulose-based fungal battery
ACS Sustainable Chemistry & EngineeringGrowing e-waste and the dwindling of non-renewable materials underscores the urgency to develop electronics based on renewable natural resources. Using cellu-lose as a material for 3D printing living fungal electrodes, is a novel way to harness their metabolic activity for potential use in electrochemical devices.
Carolina Reyes +8 more
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SmallAbstractThe last decade observed rapid progress in soft electronics. Yet, the ultimate desired goal for many research fields is to fabricate fully integrated soft‐matter electronics with sensors, interconnects, and batteries, at the ease of pushing a print button.
Marta Calisto Freitas +4 more
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Recyclable 3D‐Printed Aqueous Lithium‐Ion Battery
Advanced Energy and Sustainability Research, 2023 Additive manufacturing, or 3D printing, in energy storage devices such as batteries has the potential to create new form factor small cells that are incorporated into the shape of the device at the design stage. With large‐scale proliferation, sustainable and recyclable materials are needed to avoid used cell waste accumulation, and the cells should ...
Umair Gulzar +3 more
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Printed Zinc Paper Batteries [PDF]
Advanced Science, 2021 AbstractPaper electronics offer an environmentally sustainable option for flexible and wearable systems and perfectly fit the available printing technologies for high manufacturing efficiency. As the heart of energy‐consuming devices, paper‐based batteries are required to be compatible with printing processes with high fidelity.
Peihua Yang +3 more
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Nature Electronics, 2022 Wearable electronic devices are of potential use in various health monitoring applications including non-invasive chemical sensing. However, such platforms are typically limited by the need to connect to external devices for power and data visualization.
Lu Yin +15 more
semanticscholar +1 more source
Electrochemical Energy Reviews, 2023 Abstract Solid-state batteries (SSBs) possess the advantages of high safety, high energy density and long cycle life, which hold great promise for future energy storage systems. The advent of printed electronics has transformed the paradigm of battery manufacturing as it offers a range of accessible, versatile, cost ...
Shiqiang Zhou +8 more
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LFP-Based Gravure Printed Cathodes for Lithium-Ion Printed Batteries [PDF]
Membranes, 2019 Printed batteries have undergone increased investigation in recent years because of the growing daily use of small electronic devices. With this in mind, industrial gravure printing has emerged as a suitable production technology due to its high speed and quality, and its capability to produce any shape of image.
Montanino, Maria +3 more
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Gravure Printing of Graphite-Based Anodes for Lithium-Ion Printed Batteries
Membranes, 2022 Aimed at the growing interest in printed batteries, widely used industrial gravure printing was recently proven to be able to produce high-quality electrodes for lithium-ion batteries (LiBs), demonstrating its utility in the study of new functional materials.
Maria Montanino +3 more
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An open-source platform for 3D-printed redox flow battery test cells
Sustainable Energy & Fuels, 2022 A framework for improving cell design and providing researchers with low-cost, open-source, 3D-printed redox flow battery test cells.
H. O'Connor +9 more
semanticscholar +1 more source
Printed electronics to accelerate solid-state battery development
Nano Express, 2022 The transition from conventional liquid electrolyte Li-ion batteries towards solid-state systems requires a paradigm shift on how these batteries are fabricated and how the R&D process can be augmented in order to fulfil the ever-increasing demand for ...
R. Sliz +3 more
semanticscholar +1 more source