Results 21 to 30 of about 1,339,157 (200)
Multiscale Ion-Electron Transport in 3D-Printed Hierarchically Porous Full Batteries. [PDF]
Nanomaterials (Basel)The rapid advancement of next-generation energy storage technologies demands advanced manufacturing strategies that offer structural precision, scalability, and compositional tunability.
Wang T, Feng L, Su B, Tian X, Zhao Y.
europepmc +2 more sources
Fabricating self-powered microfluidic devices via 3D printing for manipulating fluid flow
STAR Protocols, 2022 Summary: Advances in 3D printing technologies allow fabrication of complex structures at micron resolution. Here, we describe two approaches of fabricating self-powered microfluidic devices utilizing 3D printing: PDMS (polydimethylsiloxane)-based ...
Sung Oh Woo, Myungkeun Oh, Yongki Choi
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Multiprocess 3D printing of sodium-ion batteries via vat photopolymerization and direct ink writing
JPhys Energy, 2023 In this work, the ability to print shape-conformable batteries with multi-process additive manufacturing is reported. Vat photopolymerization (VPP) 3D printing process is employed to manufacture gel polymer electrolytes (GPEs) for sodium-ion batteries ...
Ana C Martinez +12 more
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Additive manufacturing for advanced rechargeable lithium batteries: A mini review
Frontiers in Energy Research, 2022 Additive manufacturing techniques have shown great promise in changing the way batteries can be designed due to their excellent geometry controllability, process flexibility and high sustainability in manufacturing complex-shaped structures, which have ...
Funian Mo +7 more
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Direct ink writing of programmable functional silicone‐based composites for 4D printing applications
Interdisciplinary Materials, 2022 Polydimethylsiloxane (PDMS) has been widely used in flexible electronics, soft robotics, and bioelectronics. However, the fabrication of PDMS‐based devices has mostly relied on conventional approaches, such as casting and molding, thereby limiting their ...
Zhiyang Lyu +12 more
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Batteries, 2023 Three-dimensional (3D) printing, as an advanced additive manufacturing technique, is emerging as a promising material-processing approach in the electrical energy storage and conversion field, e.g., electrocatalysis, secondary batteries and ...
Shu Zhang +6 more
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Advanced Electronic Materials, 2023 The Internet of Things is currently one of the fastest‐growing branches in electronics. The development of energy storage systems and the miniaturization of dedicated printed circuit boards significantly influence that growth.
Kacper Skarżyński, Marcin Słoma
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Gravure‐Printed Conversion/Alloying Anodes for Lithium‐Ion Batteries [PDF]
Energy Technology, 2021 Recently, printing techniques are increasingly investigated in the field of energy storage, especially for the fabrication of custom‐designed batteries. Thanks to its many advantages, the most industrially used gravure printing would offer an innovative boost to printed battery production, even if, to date, such a technique is still not well ...
Montanino, M. +6 more
openaire +4 more sources
Power Generation for Wearable Electronics: Designing Electrochemical Storage on Fabrics
IEEE Access, 2018 We report a new class of textiles with electrochemical functions which, when moistened by a conductive liquid (saline solution, sweat, and wound fluid), generate dc voltage and current levels capable of powering wearable electronics on the go.
Ramandeep Vilkhu +5 more
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Water activated disposable paper battery
Scientific Reports, 2022 We developed a disposable paper battery aiming to reduce the environmental impact of single-use electronics for applications such as point of care diagnosis, smart packaging and environmental sensing. The battery uses Zinc as a biodegradable metal anode,
Alexandre Poulin +2 more
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