Peijing Guo scite author profile

A dual‐ion battery‐supercapacitor hybrid device (DIB‐SCHD), cleverly integrating a dual‐ion battery (DIB) and a supercapacitor (SC), is expected to endow both the high energy density of dual‐ion battery and the high power density of supercapacitor. Benefitting from the similar features of the electrolyte and symmetrical electrode configuration, a state‐of‐the‐art DIB‐SCHD is developed by using N‐doped micropores‐dominant carbon(N‐MPC) as the electrode and LiCl in a room‐temperature ion liquid hybrid as the electrolyte, which deliver an ultrahigh mass capacitance of 374 F g−1 with a high voltage of 3.5 V and a remarkable specific energy of 208 Wh kg−1 at 1144 W kg−1 and an ultrahigh specific power of 22834 W kg−1 at 77 Wh kg−1. Combined with ex situ characterizations and theoretical calculations, the assembled DIB‐SCHD presents a synergistic energy storage mechanism simultaneously involving ion intercalation/deintercalation and adsorption/desorption processes, which can promote the reaction kinetics and achieve exceptional electrochemical performance. The perfect integration of the dual‐ion battery‐type and supercapacitor‐type electrodes provides a new strategy toward high energy and power density electrochemical energy storage devices.

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N-doped carbon derived from the monomer of chitin for high-performance supercapacitor

Chu

Zhai

Shang

et al. 2020

Applied Surface Science

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The synergistic effect of Co/CoO hybrid structure combined with biomass materials promotes photocatalytic hydrogen evolution

Guo

Xiong

Yuan

et al. 2021

Chemical Engineering Journal

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Ni/NiO hybrid nanostructure supported on biomass carbon for visible-light photocatalytic hydrogen evolution

et al. 2021

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In-situ carbon-coated TiO2 boosting the visible-light photocatalytic hydrogen evolution

Zhang

Xiong

Zhao

et al. 2021

Applied Surface Science

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Peijing Guo

A High‐Performance Dual‐Ion Battery‐Supercapacitor Hybrid Device Based on LiCl in Ion Liquid Dual‐Salt Electrolyte

N-doped carbon derived from the monomer of chitin for high-performance supercapacitor

The synergistic effect of Co/CoO hybrid structure combined with biomass materials promotes photocatalytic hydrogen evolution

Ni/NiO hybrid nanostructure supported on biomass carbon for visible-light photocatalytic hydrogen evolution

In-situ carbon-coated TiO2 boosting the visible-light photocatalytic hydrogen evolution

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