Chonggao Bao scite author profile

The realization of large‐capacity, high‐energy‐density Li metal battery technology is seriously impeded by dendrite growth and massive dead lithium formation upon cycling. Here, a stable flexible electrostatic self‐adapting polymer (poly(1‐benzyl‐3‐vinylimidazolium), (PBM)) interface is reported to regulate lithium‐ion deposition for dendrite‐free lithium metal batteries. The cationic PBM interlayer can adaptively tune the surface current density near the lithium/electrolyte interface, inducing a uniform distribution of current density and lithium ions and thus achieving dendrite‐free Li deposition under harsh conditions (lean electrolyte 8.75 µL mAh−1, high areal capacity >4 mAh cm−2). Moreover, the tethered phenyl groups endow PBM with a low reduction potential of −3.7 V versus standard hydrogen electrode by decreasing Hirshfeld charge at the reductive site. This avoids electrochemical reduction and therefore ensures the long‐term stability of the PBM interface. Consequently, the Li|PBM@Cu asymmetric cells deliver a high average Coulombic efficiency of 99.38% at 8 mAh cm−2 with lean electrolyte. Notably, the 5.1 Ah LiNi0.8Co0.1Mn0.1O2|PBM@Li pouch cell exhibits excellent cycling stability (0.011% decay/cycle) and high energy density (418.7 Wh kg−1) under realistic conditions (lean electrolyte 2.5 g Ah−1, high areal capacity 5.7 mAh cm−2, and high current density 2.7 mA cm−2).

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Optimization of glass fiber based core materials for vacuum insulation panels with laminated aluminum foils as envelopes

Gao

Bao

et al. 2013

Vacuum

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High temperature wettability between CMAS and YSZ coating with tailored surface microstructures

Kang

Bai

et al. 2018

Materials Letters

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Chonggao Bao

Influence of deposition temperature on the crystallinity of Al-doped ZnO thin films at glass substrates prepared by RF magnetron sputtering method

Performance optimization of complicated structural SiC/Si composite ceramics prepared by selective laser sintering

Constructing Self‐Adapting Electrostatic Interface on Lithium Metal Anode for Stable 400 Wh kg⁻¹ Pouch Cells

Optimization of glass fiber based core materials for vacuum insulation panels with laminated aluminum foils as envelopes

High temperature wettability between CMAS and YSZ coating with tailored surface microstructures

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Chonggao Bao

Influence of deposition temperature on the crystallinity of Al-doped ZnO thin films at glass substrates prepared by RF magnetron sputtering method

Performance optimization of complicated structural SiC/Si composite ceramics prepared by selective laser sintering

Constructing Self‐Adapting Electrostatic Interface on Lithium Metal Anode for Stable 400 Wh kg−1 Pouch Cells

Optimization of glass fiber based core materials for vacuum insulation panels with laminated aluminum foils as envelopes

High temperature wettability between CMAS and YSZ coating with tailored surface microstructures

Contact Info

Product

Resources

About

Constructing Self‐Adapting Electrostatic Interface on Lithium Metal Anode for Stable 400 Wh kg⁻¹ Pouch Cells