Jin-Yu Gu scite author profile

The emerging market of wearable smart electronics calls for flexible energy storage solutions with high performance but low cost. To fulfill this demand, a novel method involving high-pressure and high-temperature filtration has been developed to fabricate flexible and freestanding thin-film electrodes with high packing density for lithium ion batteries. The method is universal, can be used for fabricating both cathodes and anodes, and is applicable for most electrochemically active materials. No organic solvent is involved throughout the fabrication process, demonstrating excellent environmental benignity. Despite of the absence of current collectors, electrochemical characterizations on a pair of proof-of-concept anode (graphite) and cathode (lithium iron phosphate) reveal good areal capacity and rate capability. Prototype full pouch cells constructed using the electrode pair demonstrate excellent deformability, durability, and power output, promising for practical implementation with low fabrication cost.

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Progress on the Development of Inorganic Lead-Free Perovskite Solar Cells

Gu¹,

苏州大学能源与材料创新研究院²,

Qi³

et al. 2017

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Jin-Yu Gu

Bandgap engineering of a lead-free defect perovskite Cs₃Bi₂I₉through trivalent doping of Ru³⁺

Freestanding Electrode Pairs with High Areal Density Fabricated under High Pressure and High Temperature for Flexible Lithium Ion Batteries

Progress on the Development of Inorganic Lead-Free Perovskite Solar Cells

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Jin-Yu Gu

Bandgap engineering of a lead-free defect perovskite Cs3Bi2I9through trivalent doping of Ru3+

Freestanding Electrode Pairs with High Areal Density Fabricated under High Pressure and High Temperature for Flexible Lithium Ion Batteries

Progress on the Development of Inorganic Lead-Free Perovskite Solar Cells

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Bandgap engineering of a lead-free defect perovskite Cs₃Bi₂I₉through trivalent doping of Ru³⁺