Nathan Joseph Fritz scite author profile

The rapid development of flexible and wearable electronics proposes the persistent requirements of high-performance flexible batteries. Much progress has been achieved recently, but how to obtain remarkable flexibility and high energy density simultaneously remains a great challenge. Here, a facile and scalable approach to fabricate spine-like flexible lithium-ion batteries is reported. A thick, rigid segment to store energy through winding the electrodes corresponds to the vertebra of animals, while a thin, unwound, and flexible part acts as marrow to interconnect all vertebra-like stacks together, providing excellent flexibility for the whole battery. As the volume of the rigid electrode part is significantly larger than the flexible interconnection, the energy density of such a flexible battery can be over 85% of that in conventional packing. A nonoptimized flexible cell with an energy density of 242 Wh L is demonstrated with packaging considered, which is 86.1% of a standard prismatic cell using the same components. The cell also successfully survives a harsh dynamic mechanical load test due to this rational bioinspired design. Mechanical simulation results uncover the underlying mechanism: the maximum strain in the reported design (≈0.08%) is markedly smaller than traditional stacked cells (≈1.1%). This new approach offers great promise for applications in flexible devices.

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3D periodic polyimide nano-networks for ultrahigh-rate and sustainable energy storage

Ham

Fritz

Hyun

et al. 2021

Energy Environ. Sci.

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Bioinspired, Spine‐Like, Flexible, Rechargeable Lithium‐Ion Batteries with High Energy Density

Qian¹,

Zhu²,

Liao³

et al. 2019

Advanced Materials

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Visualizing ion diffusion in battery systems by fluorescence microscopy: A case study on the dissolution of LiMn2O4

Qiao

Chen

et al. 2018

Nano Energy

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