Hydrothermally synthesized binder-less ZnS/CdS on nickel foam as promising hybrid supercapacitor electrode materials

Mohib Ullah Khan; Afaq Ullah Khan; Sameerah I. Al-Saeedi; Kamran Tahir; Abdulaziz A. Alanazi; Zainab M. Almarhoon; Talal M. Althagafi; Magdi E.A. Zaki; Hassan M.A. Hassan; Mingzai Wu

doi:10.1016/j.jelechem.2024.118690

Hydrothermally synthesized binder-less ZnS/CdS on nickel foam as promising hybrid supercapacitor electrode materials

Mohib Ullah Khan
, Afaq Ullah Khan
, Sameerah I. Al-Saeedi
, Kamran Tahir
, Abdulaziz A. Alanazi
, Zainab M. Almarhoon
, Talal M. Althagafi
, Magdi E.A. Zaki
, Hassan M.A. Hassan
, Mingzai Wu

Chemistry

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

7 Scopus citations

Abstract

A binary composite of metal sulfides (MS) is directly synthesized on nickel foam through hydrothermal process, resulting in snow like nanosphere suitable for hybrid supercapacitors (HSCs). Herein, a ZnS/CdS binary composite has been grown directly on nickel foam using a simple hydrothermal method. The structural features, morphological characteristics and electrochemical performance of the composite are systematically investigated. Especially, the highest capacitance of 739–325 F/g at 1–10 A/g was attained with good rate performance. Moreover, a binder-less ZnS/CdS/NF composite achieved a high power of 5030 W/kg at 42 Wh/kg energy density by realizing an expanded voltage to 1.8 V with decent durability. Interestingly, a 92.84 % retention was noticed after 6500 cycles, which indicates high performance stability of the ZnS/CdS/NF||AC HSC. These outcomes reveal the promising prospect of all-metal sulfide utilization for next-generation energy storage devices.

Original language	English
Article number	118690
Journal	Journal of Electroanalytical Chemistry
Volume	973
DOIs	https://doi.org/10.1016/j.jelechem.2024.118690
State	Published - 15 Nov 2024

Keywords

Electrode material
Hybrid supercapacitor
Metal sulfide
Nanospheres
Power density

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10.1016/j.jelechem.2024.118690

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Khan, M. U., Khan, A. U., Al-Saeedi, S. I., Tahir, K., Alanazi, A. A., Almarhoon, Z. M., Althagafi, T. M., Zaki, M. E. A., Hassan, H. M. A., & Wu, M. (2024). Hydrothermally synthesized binder-less ZnS/CdS on nickel foam as promising hybrid supercapacitor electrode materials. Journal of Electroanalytical Chemistry, 973, Article 118690. https://doi.org/10.1016/j.jelechem.2024.118690

@article{a48c85cfb4e3404391aee805dc0f64b6,

title = "Hydrothermally synthesized binder-less ZnS/CdS on nickel foam as promising hybrid supercapacitor electrode materials",

abstract = "A binary composite of metal sulfides (MS) is directly synthesized on nickel foam through hydrothermal process, resulting in snow like nanosphere suitable for hybrid supercapacitors (HSCs). Herein, a ZnS/CdS binary composite has been grown directly on nickel foam using a simple hydrothermal method. The structural features, morphological characteristics and electrochemical performance of the composite are systematically investigated. Especially, the highest capacitance of 739–325 F/g at 1–10 A/g was attained with good rate performance. Moreover, a binder-less ZnS/CdS/NF composite achieved a high power of 5030 W/kg at 42 Wh/kg energy density by realizing an expanded voltage to 1.8 V with decent durability. Interestingly, a 92.84 \% retention was noticed after 6500 cycles, which indicates high performance stability of the ZnS/CdS/NF||AC HSC. These outcomes reveal the promising prospect of all-metal sulfide utilization for next-generation energy storage devices.",

keywords = "Electrode material, Hybrid supercapacitor, Metal sulfide, Nanospheres, Power density",

author = "Khan, \{Mohib Ullah\} and Khan, \{Afaq Ullah\} and Al-Saeedi, \{Sameerah I.\} and Kamran Tahir and Alanazi, \{Abdulaziz A.\} and Almarhoon, \{Zainab M.\} and Althagafi, \{Talal M.\} and Zaki, \{Magdi E.A.\} and Hassan, \{Hassan M.A.\} and Mingzai Wu",

note = "Publisher Copyright: {\textcopyright} 2024 Elsevier B.V.",

year = "2024",

month = nov,

day = "15",

doi = "10.1016/j.jelechem.2024.118690",

language = "English",

volume = "973",

journal = "Journal of Electroanalytical Chemistry",

issn = "1572-6657",

publisher = "Elsevier B.V.",

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TY - JOUR

T1 - Hydrothermally synthesized binder-less ZnS/CdS on nickel foam as promising hybrid supercapacitor electrode materials

AU - Khan, Mohib Ullah

AU - Khan, Afaq Ullah

AU - Al-Saeedi, Sameerah I.

AU - Tahir, Kamran

AU - Alanazi, Abdulaziz A.

AU - Almarhoon, Zainab M.

AU - Althagafi, Talal M.

AU - Zaki, Magdi E.A.

AU - Hassan, Hassan M.A.

AU - Wu, Mingzai

PY - 2024/11/15

Y1 - 2024/11/15

N2 - A binary composite of metal sulfides (MS) is directly synthesized on nickel foam through hydrothermal process, resulting in snow like nanosphere suitable for hybrid supercapacitors (HSCs). Herein, a ZnS/CdS binary composite has been grown directly on nickel foam using a simple hydrothermal method. The structural features, morphological characteristics and electrochemical performance of the composite are systematically investigated. Especially, the highest capacitance of 739–325 F/g at 1–10 A/g was attained with good rate performance. Moreover, a binder-less ZnS/CdS/NF composite achieved a high power of 5030 W/kg at 42 Wh/kg energy density by realizing an expanded voltage to 1.8 V with decent durability. Interestingly, a 92.84 % retention was noticed after 6500 cycles, which indicates high performance stability of the ZnS/CdS/NF||AC HSC. These outcomes reveal the promising prospect of all-metal sulfide utilization for next-generation energy storage devices.

AB - A binary composite of metal sulfides (MS) is directly synthesized on nickel foam through hydrothermal process, resulting in snow like nanosphere suitable for hybrid supercapacitors (HSCs). Herein, a ZnS/CdS binary composite has been grown directly on nickel foam using a simple hydrothermal method. The structural features, morphological characteristics and electrochemical performance of the composite are systematically investigated. Especially, the highest capacitance of 739–325 F/g at 1–10 A/g was attained with good rate performance. Moreover, a binder-less ZnS/CdS/NF composite achieved a high power of 5030 W/kg at 42 Wh/kg energy density by realizing an expanded voltage to 1.8 V with decent durability. Interestingly, a 92.84 % retention was noticed after 6500 cycles, which indicates high performance stability of the ZnS/CdS/NF||AC HSC. These outcomes reveal the promising prospect of all-metal sulfide utilization for next-generation energy storage devices.

KW - Electrode material

KW - Hybrid supercapacitor

KW - Metal sulfide

KW - Nanospheres

KW - Power density

UR - https://www.scopus.com/pages/publications/85205913617

U2 - 10.1016/j.jelechem.2024.118690

DO - 10.1016/j.jelechem.2024.118690

M3 - Article

AN - SCOPUS:85205913617

SN - 1572-6657

VL - 973

JO - Journal of Electroanalytical Chemistry

JF - Journal of Electroanalytical Chemistry

M1 - 118690

ER -

Hydrothermally synthesized binder-less ZnS/CdS on nickel foam as promising hybrid supercapacitor electrode materials

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Keywords

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