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Fundamentals of Laser Direct Write Deposition for Electrochemically Active Materials

Near ideal. Electron limited. Schematic of LDW printing. Camera. Laser. Proton limited. Objective. Donor substrate. Ink. Receiver substrate. 25 m J laser. XYZ CAD/CAM stage. No laser. Fundamentals of Laser Direct Write Deposition for Electrochemically Active Materials.

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Fundamentals of Laser Direct Write Deposition for Electrochemically Active Materials

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  1. Near ideal Electron limited Schematic of LDW printing Camera Laser Proton limited Objective Donor substrate Ink Receiver substrate 25 mJ laser XYZ CAD/CAM stage No laser Fundamentals of Laser Direct Write Deposition for Electrochemically Active Materials Craig B. Arnold, Mechanical and Aerospace Engineering, Princeton Institute of Science and Technology of Materials, Princeton University, Princeton, NJ 08544 LDW is an important way to create patterns of active material for small scale energy storage systems We demonstrate that this technique can be used to optimize material properties during printing leading to higher capacity and improved high rate behavior In contrast to traditional methods of materials processing, LDW processing enables improved electron transport with minimal decrease proton reaction kinetics

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