Hierarchical α‐MnO<sub>2</sub> Tube‐on‐Tube Arrays with Superior, Structure‐Dependent Pseudocapacitor Performance Synthesized via a Selective Dissolution and Coherent Growth Mechanism

The ever-increasing energy demands for electrification of transportation and powering of portable electronics are driving the pursuit of energy-storage technologies beyond the current horizon. Pseudocapacitors have emerged as one of the favored contenders to fill in this technology gap, owing to their potential to deliver both high power and energy densities. The high specific capacitance of pseudocapacitive materials is rooted in the various available oxidation states for fast surface or near-surface redox charge transfer. However, the practical implementation of pseudocapacitors is plagued by the insulating nature of most pseudocapacitive materials. The wealth of the research dedicated to addressing these critical issues has grown exponentially in the past decade. Here, we briefly survey the current progress in the development of pseudocapacitive electrodes with a focus on the discussion of the recent most exciting advances in the design of three-dimensional binder-free nanoarchitectures, including porous metal/graphene-based electrodes, as well as metal-atom/ion-doping-enhanced systems, for advanced supercapacitors with comparable energy density to batteries, and high power density.

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Three‐Dimensional Binder‐Free Nanoarchitectures for Advanced Pseudocapacitors

Kang

2017

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Fabrication of Ni-foam-assisted graphene@MnO2-doped carbon fabric electrodes from waste cotton fabrics for supercapacitors

Polat,

Karakaş

2024

Chem. Pap.

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Optimized K+ pre-intercalation in layered manganese dioxide nanoflake arrays with high intercalation pseudocapacitance

Cao

Bao

Cheng

et al. 2017

Ceramics International

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Hierarchical α‐MnO₂ Tube‐on‐Tube Arrays with Superior, Structure‐Dependent Pseudocapacitor Performance Synthesized via a Selective Dissolution and Coherent Growth Mechanism

Cited by 9 publications

References 42 publications

Three‐Dimensional Binder‐Free Nanoarchitectures for Advanced Pseudocapacitors

Three‐Dimensional Binder‐Free Nanoarchitectures for Advanced Pseudocapacitors

Fabrication of Ni-foam-assisted graphene@MnO2-doped carbon fabric electrodes from waste cotton fabrics for supercapacitors

Optimized K+ pre-intercalation in layered manganese dioxide nanoflake arrays with high intercalation pseudocapacitance

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Hierarchical α‐MnO2 Tube‐on‐Tube Arrays with Superior, Structure‐Dependent Pseudocapacitor Performance Synthesized via a Selective Dissolution and Coherent Growth Mechanism

Cited by 9 publications

References 42 publications

Three‐Dimensional Binder‐Free Nanoarchitectures for Advanced Pseudocapacitors

Three‐Dimensional Binder‐Free Nanoarchitectures for Advanced Pseudocapacitors

Fabrication of Ni-foam-assisted graphene@MnO2-doped carbon fabric electrodes from waste cotton fabrics for supercapacitors

Optimized K+ pre-intercalation in layered manganese dioxide nanoflake arrays with high intercalation pseudocapacitance

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Product

Resources

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Hierarchical α‐MnO₂ Tube‐on‐Tube Arrays with Superior, Structure‐Dependent Pseudocapacitor Performance Synthesized via a Selective Dissolution and Coherent Growth Mechanism