光催化辅助的CoO/g-CN p-n结全固态超级电容器：储能与光催化之间的桥梁

Photocatalysis-Assisted CoO/g-CN p-n Junction All-Solid-State Supercapacitors: A Bridge between Energy Storage and Photocatalysis.

作者信息

Bai Liqi, Huang Hongwei, Zhang Songge, Hao Lin, Zhang Zhili, Li Hongfen, Sun Li, Guo Lina, Huang Haitao, Zhang Yihe

机构信息

Beijing Key Laboratory of Materials Utilization of Nonmetallic Minerals and Solid Wastes National Laboratory of Mineral Materials School of Materials Science and Technology China University of Geosciences Beijing 100083 P. R. China.

Key Laboratory of Synthetic and Biological Colloids Ministry of Education School of Chemical and Material Engineering Jiangnan University Wuxi 214122 P. R. China.

出版信息

Adv Sci (Weinh). 2020 Oct 1;7(22):2001939. doi: 10.1002/advs.202001939. eCollection 2020 Nov.

DOI:10.1002/advs.202001939

PMID:33240757

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7675041/

Abstract

Supercapacitors with the advantages of high power density and fast discharging rate have full applications in energy storage. However, the low energy density restricts their development. Conventional methods for improving energy density are mainly confined to doping atoms and hybridizing with other active materials. Herein, a CoO/g-CN p-n junction with excellent capacity is developed and its application in an all-solid-state flexible device is demonstrated, whose capacity and energy density are considerably enhanced by simulated solar light irradiation. Under photoirradiation, the capacity is increased by 70.6% at the maximum current density of 26.6 mA cm and a power density of 16.0 kW kg. The energy density is enhanced from 7.5 to 12.9 Wh kg with photoirradiation. The maximum energy density reaches 16.4 Wh kg at a power density of 6.4 kW kg. It is uncovered that the lattice distortion of CoO, reduces defects of g-CN, and the facilitated photo-generated charge separation by the CoO/g-CN p-n junction all make contributions to the promoted electrochemical storage performance. This work may provide a new strategy to enhance the energy density of supercapacitors and expand the application range of photocatalytic materials.

摘要

具有高功率密度和快速放电速率优势的超级电容器在能量存储领域有广泛应用。然而，低能量密度限制了它们的发展。传统提高能量密度的方法主要局限于掺杂原子以及与其他活性材料杂化。在此，开发了一种具有优异电容的CoO/g-CN p-n结，并展示了其在全固态柔性器件中的应用，通过模拟太阳光照射，其电容和能量密度得到显著提高。在光照射下，在最大电流密度为26.6 mA cm且功率密度为16.0 kW kg时，电容增加了70.6%。光照射下能量密度从7.5提高到12.9 Wh kg。在功率密度为6.4 kW kg时，最大能量密度达到16.4 Wh kg。研究发现，CoO的晶格畸变、g-CN缺陷的减少以及CoO/g-CN p-n结促进的光生电荷分离都对电化学存储性能的提升有贡献。这项工作可能为提高超级电容器的能量密度提供一种新策略，并扩大光催化材料的应用范围。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3090/7675041/a42abb829255/ADVS-7-2001939-g001.jpg

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光催化辅助的CoO/g-CN p-n结全固态超级电容器：储能与光催化之间的桥梁

Photocatalysis-Assisted CoO/g-CN p-n Junction All-Solid-State Supercapacitors: A Bridge between Energy Storage and Photocatalysis.

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