Potassium pre-inserted K1.04Mn8O16 as cathode materials for aqueous Li-ion and Na-ion hybrid capacitors

Yamin Zhang; Lina Chen; Chongyang Hao; Xiaowen Zheng; Yixuan Guo; Long Chen; Kangrong Lai; Yinghe Zhang; Lijie Ci

doi:10.1016/j.jechem.2019.10.015

Potassium pre-inserted K_1.04Mn₈O₁₆ as cathode materials for aqueous Li-ion and Na-ion hybrid capacitors

Yamin Zhang
, Lina Chen^*
, Chongyang Hao
, Xiaowen Zheng
, Yixuan Guo
, Long Chen
, Kangrong Lai
, Yinghe Zhang
, Lijie Ci

^*Corresponding author for this work

Shandong University
Changji University
Harbin Institute of Technology (Shenzhen)
Ltd.

Research output: Contribution to journal › Article › peer-review

48 Scopus citations

Abstract

For the applications of aqueous Li-ion hybrid capacitors and Na-ion hybrid capacitors, potassium ions are pre-inserted into MnO₂ tunnel structure, the as-prepared K_1.04Mn₈O₁₆ materials consist of nanoparticles and nanorods were prepared by facile high-temperature solid-state reaction. The as-prepared materials were well studied and they show outstanding electrochemical behavior. We assembled hybrid supercapacitors with commercial activated carbon (YEC-8A) as anode and K_1.04Mn₈O₁₆ as cathode. It shows high energy and power densities. Li-ion capacitors reach a high energy density of 127.61 Wh kg⁻¹ at the power density of 99.86 W kg⁻¹ and Na-ion capacitor obtains 170.96 Wh kg⁻¹ at 133.79 W kg⁻¹. In addition, the hybrid supercapacitors demonstrate excellent cycling performance which maintain 97% capacitance retention for Li-ion capacitor and 85% for Na-ion capacitor after 10,000 cycles.

Original language	English
Pages (from-to)	53-61
Number of pages	9
Journal	Journal of Energy Chemistry
Volume	46
DOIs	https://doi.org/10.1016/j.jechem.2019.10.015
State	Published - Jul 2020
Externally published	Yes

Keywords

Electrochemical behavior
KMnO
Li-ion hybrid capacitors
Na-ion hybrid capacitors
Pre-inserted

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10.1016/j.jechem.2019.10.015

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@article{eb66f83a00484d539545ae83a6bc3fce,

title = "Potassium pre-inserted K1.04Mn8O16 as cathode materials for aqueous Li-ion and Na-ion hybrid capacitors",

abstract = "For the applications of aqueous Li-ion hybrid capacitors and Na-ion hybrid capacitors, potassium ions are pre-inserted into MnO2 tunnel structure, the as-prepared K1.04Mn8O16 materials consist of nanoparticles and nanorods were prepared by facile high-temperature solid-state reaction. The as-prepared materials were well studied and they show outstanding electrochemical behavior. We assembled hybrid supercapacitors with commercial activated carbon (YEC-8A) as anode and K1.04Mn8O16 as cathode. It shows high energy and power densities. Li-ion capacitors reach a high energy density of 127.61 Wh kg−1 at the power density of 99.86 W kg−1 and Na-ion capacitor obtains 170.96 Wh kg−1 at 133.79 W kg−1. In addition, the hybrid supercapacitors demonstrate excellent cycling performance which maintain 97\% capacitance retention for Li-ion capacitor and 85\% for Na-ion capacitor after 10,000 cycles.",

keywords = "Electrochemical behavior, KMnO, Li-ion hybrid capacitors, Na-ion hybrid capacitors, Pre-inserted",

author = "Yamin Zhang and Lina Chen and Chongyang Hao and Xiaowen Zheng and Yixuan Guo and Long Chen and Kangrong Lai and Yinghe Zhang and Lijie Ci",

note = "Publisher Copyright: {\textcopyright} 2019",

year = "2020",

month = jul,

doi = "10.1016/j.jechem.2019.10.015",

language = "英语",

volume = "46",

pages = "53--61",

journal = "Journal of Energy Chemistry",

issn = "2095-4956",

publisher = "Elsevier B.V.",

}

TY - JOUR

T1 - Potassium pre-inserted K1.04Mn8O16 as cathode materials for aqueous Li-ion and Na-ion hybrid capacitors

AU - Zhang, Yamin

AU - Chen, Lina

AU - Hao, Chongyang

AU - Zheng, Xiaowen

AU - Guo, Yixuan

AU - Chen, Long

AU - Lai, Kangrong

AU - Zhang, Yinghe

AU - Ci, Lijie

PY - 2020/7

Y1 - 2020/7

N2 - For the applications of aqueous Li-ion hybrid capacitors and Na-ion hybrid capacitors, potassium ions are pre-inserted into MnO2 tunnel structure, the as-prepared K1.04Mn8O16 materials consist of nanoparticles and nanorods were prepared by facile high-temperature solid-state reaction. The as-prepared materials were well studied and they show outstanding electrochemical behavior. We assembled hybrid supercapacitors with commercial activated carbon (YEC-8A) as anode and K1.04Mn8O16 as cathode. It shows high energy and power densities. Li-ion capacitors reach a high energy density of 127.61 Wh kg−1 at the power density of 99.86 W kg−1 and Na-ion capacitor obtains 170.96 Wh kg−1 at 133.79 W kg−1. In addition, the hybrid supercapacitors demonstrate excellent cycling performance which maintain 97% capacitance retention for Li-ion capacitor and 85% for Na-ion capacitor after 10,000 cycles.

AB - For the applications of aqueous Li-ion hybrid capacitors and Na-ion hybrid capacitors, potassium ions are pre-inserted into MnO2 tunnel structure, the as-prepared K1.04Mn8O16 materials consist of nanoparticles and nanorods were prepared by facile high-temperature solid-state reaction. The as-prepared materials were well studied and they show outstanding electrochemical behavior. We assembled hybrid supercapacitors with commercial activated carbon (YEC-8A) as anode and K1.04Mn8O16 as cathode. It shows high energy and power densities. Li-ion capacitors reach a high energy density of 127.61 Wh kg−1 at the power density of 99.86 W kg−1 and Na-ion capacitor obtains 170.96 Wh kg−1 at 133.79 W kg−1. In addition, the hybrid supercapacitors demonstrate excellent cycling performance which maintain 97% capacitance retention for Li-ion capacitor and 85% for Na-ion capacitor after 10,000 cycles.

KW - Electrochemical behavior

KW - KMnO

KW - Li-ion hybrid capacitors

KW - Na-ion hybrid capacitors

KW - Pre-inserted

UR - https://www.scopus.com/pages/publications/85075012390

U2 - 10.1016/j.jechem.2019.10.015

DO - 10.1016/j.jechem.2019.10.015

M3 - 文章

AN - SCOPUS:85075012390

SN - 2095-4956

VL - 46

SP - 53

EP - 61

JO - Journal of Energy Chemistry

JF - Journal of Energy Chemistry

ER -

Potassium pre-inserted K_1.04Mn₈O₁₆ as cathode materials for aqueous Li-ion and Na-ion hybrid capacitors

Abstract

Keywords

Access to Document

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