Yoshimasa Shirai scite author profile

Metal nanowire nonwoven cloth (MNNC) is a metal sheet that has resulted from intertwined metal nanowires 100 nm in diameter with several dozen micrometers of length. Thus, it is a new metallic material having both a flexibility of the metal sheet and a large specific surface area of the nanowires. As an application that utilizes these properties, we propose a high-cyclability electrode for Li storage batteries, in which an active material is deposited or coated on MNNC. The proposed electrode can work without any binders, conductive additives, and current collectors, which might largely improve a practical gravimetric energy density. Huge electrode surfaces provide efficient ion/electron transports, and sufficient interspaces between the respective nanowires accommodate large volume expansions of the active material. To demonstrate these advantages, we have fabricated a NiO-covered nickel nanowire nonwoven cloth (NNNC) by electroless deposition under a magnetic field and annealing in air. The adequately annealed NNNC was shown to be an excellent conversion-type electrode that exhibits a quite high cyclability, 500 mAh/g at 1 C after 300 cycles, compared to that of a composite electrode consisting of NiO nanoparticles. Thus, the present design concept will contribute to a game-changing technology in future lithium ion battery (LIB) electrodes.

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A Possible Way of Utilizing a Polyvalent Metal As a Negative Electrode of Storage Battery

Shirai¹,

Ichitsubo²,

Yagi

et al. 2013

Meet. Abstr.

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Yoshimasa Shirai

A concept of dual-salt polyvalent-metal storage battery

Three-Dimensional Nanoelectrode by Metal Nanowire Nonwoven Clothes

A Possible Way of Utilizing a Polyvalent Metal As a Negative Electrode of Storage Battery

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