Engineered CoS/Ni3S2 Heterointerface Catalysts Grown Directly on Carbon Paper as an Efficient Electrocatalyst for Urea Oxidation

Saba A. Aladeemy; Prabhakarn Arunachalam; Abdullah M. Al-Mayouf; P. N. Sudha; A. Rekha; A. Vidhya; J. Hemapriya; Srinivasan Latha; P. Supriya Prasad; S. Pavithra; Raja Arunadevi; Salah T. Hameed

doi:10.3390/catal14090570

Engineered CoS/Ni₃S₂ Heterointerface Catalysts Grown Directly on Carbon Paper as an Efficient Electrocatalyst for Urea Oxidation

Saba A. Aladeemy
, Prabhakarn Arunachalam
, Abdullah M. Al-Mayouf
, P. N. Sudha
, A. Rekha
, A. Vidhya
, J. Hemapriya
, Srinivasan Latha
, P. Supriya Prasad
, S. Pavithra
, Raja Arunadevi
, Salah T. Hameed

Chemistry

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

9 Scopus citations

Abstract

Developing highly efficient and stable electrocatalysts for urea electro-oxidation reactions (UORs) will improve wastewater treatment and energy conversion. A low-cost cobalt sulfide-anchored nickel sulfide electrode (CoS/Ni₃S₂@CP) was synthesized by electrodeposition in DMSO solutions and found to be highly effective and long-lasting. The morphology and composition of catalyst surfaces were examined using comprehensive physicochemical and electrochemical characterization. Specifically, CoS/Ni₃S₂@CP electrodes require a potential of 1.52 volts for a 50 mA/cm² current, confirming CoS in the heterointerface CoS/Ni₃S₂@CP catalyst. Further, the optimized CoS/Ni₃S₂@CP catalyst shows a decrease of 100 mV in the onset potential (1.32 V_RHE) for UORs compared to bare Ni₃S₂@CP catalysts (1.42 V_RHE), demonstrating much greater performance of UORs. As compared to Ni₃S₂@CP, CoS/Ni₃S₂@CP exhibits twofold greater UOR efficiency as a result of a larger electroactive surface area. The results obtained indicate that the synthetic CoS/Ni₃S₂@CP catalyst may be a favorable electrode material for managing urea-rich wastewater and generating H₂.

Original language	English
Article number	570
Journal	Catalysts
Volume	14
Issue number	9
DOIs	https://doi.org/10.3390/catal14090570
State	Published - Sep 2024

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 6 Clean Water and Sanitation

Keywords

UORs
electrodeposition
heterojunction
nickel-based chalcogenide electrocatalysts

Access to Document

10.3390/catal14090570

Cite this

Aladeemy, S. A., Arunachalam, P., Al-Mayouf, A. M., Sudha, P. N., Rekha, A., Vidhya, A., Hemapriya, J., Latha, S., Prasad, P. S., Pavithra, S., Arunadevi, R., & Hameed, S. T. (2024). Engineered CoS/Ni₃S₂ Heterointerface Catalysts Grown Directly on Carbon Paper as an Efficient Electrocatalyst for Urea Oxidation. Catalysts, 14(9), Article 570. https://doi.org/10.3390/catal14090570

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title = "Engineered CoS/Ni3S2 Heterointerface Catalysts Grown Directly on Carbon Paper as an Efficient Electrocatalyst for Urea Oxidation",

abstract = "Developing highly efficient and stable electrocatalysts for urea electro-oxidation reactions (UORs) will improve wastewater treatment and energy conversion. A low-cost cobalt sulfide-anchored nickel sulfide electrode (CoS/Ni3S2@CP) was synthesized by electrodeposition in DMSO solutions and found to be highly effective and long-lasting. The morphology and composition of catalyst surfaces were examined using comprehensive physicochemical and electrochemical characterization. Specifically, CoS/Ni3S2@CP electrodes require a potential of 1.52 volts for a 50 mA/cm2 current, confirming CoS in the heterointerface CoS/Ni3S2@CP catalyst. Further, the optimized CoS/Ni3S2@CP catalyst shows a decrease of 100 mV in the onset potential (1.32 VRHE) for UORs compared to bare Ni3S2@CP catalysts (1.42 VRHE), demonstrating much greater performance of UORs. As compared to Ni3S2@CP, CoS/Ni3S2@CP exhibits twofold greater UOR efficiency as a result of a larger electroactive surface area. The results obtained indicate that the synthetic CoS/Ni3S2@CP catalyst may be a favorable electrode material for managing urea-rich wastewater and generating H2.",

keywords = "UORs, electrodeposition, heterojunction, nickel-based chalcogenide electrocatalysts",

author = "Aladeemy, \{Saba A.\} and Prabhakarn Arunachalam and Al-Mayouf, \{Abdullah M.\} and Sudha, \{P. N.\} and A. Rekha and A. Vidhya and J. Hemapriya and Srinivasan Latha and Prasad, \{P. Supriya\} and S. Pavithra and Raja Arunadevi and Hameed, \{Salah T.\}",

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AU - Aladeemy, Saba A.

AU - Arunachalam, Prabhakarn

AU - Al-Mayouf, Abdullah M.

AU - Sudha, P. N.

AU - Rekha, A.

AU - Vidhya, A.

AU - Hemapriya, J.

AU - Latha, Srinivasan

AU - Prasad, P. Supriya

AU - Pavithra, S.

AU - Arunadevi, Raja

AU - Hameed, Salah T.

PY - 2024/9

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N2 - Developing highly efficient and stable electrocatalysts for urea electro-oxidation reactions (UORs) will improve wastewater treatment and energy conversion. A low-cost cobalt sulfide-anchored nickel sulfide electrode (CoS/Ni3S2@CP) was synthesized by electrodeposition in DMSO solutions and found to be highly effective and long-lasting. The morphology and composition of catalyst surfaces were examined using comprehensive physicochemical and electrochemical characterization. Specifically, CoS/Ni3S2@CP electrodes require a potential of 1.52 volts for a 50 mA/cm2 current, confirming CoS in the heterointerface CoS/Ni3S2@CP catalyst. Further, the optimized CoS/Ni3S2@CP catalyst shows a decrease of 100 mV in the onset potential (1.32 VRHE) for UORs compared to bare Ni3S2@CP catalysts (1.42 VRHE), demonstrating much greater performance of UORs. As compared to Ni3S2@CP, CoS/Ni3S2@CP exhibits twofold greater UOR efficiency as a result of a larger electroactive surface area. The results obtained indicate that the synthetic CoS/Ni3S2@CP catalyst may be a favorable electrode material for managing urea-rich wastewater and generating H2.

AB - Developing highly efficient and stable electrocatalysts for urea electro-oxidation reactions (UORs) will improve wastewater treatment and energy conversion. A low-cost cobalt sulfide-anchored nickel sulfide electrode (CoS/Ni3S2@CP) was synthesized by electrodeposition in DMSO solutions and found to be highly effective and long-lasting. The morphology and composition of catalyst surfaces were examined using comprehensive physicochemical and electrochemical characterization. Specifically, CoS/Ni3S2@CP electrodes require a potential of 1.52 volts for a 50 mA/cm2 current, confirming CoS in the heterointerface CoS/Ni3S2@CP catalyst. Further, the optimized CoS/Ni3S2@CP catalyst shows a decrease of 100 mV in the onset potential (1.32 VRHE) for UORs compared to bare Ni3S2@CP catalysts (1.42 VRHE), demonstrating much greater performance of UORs. As compared to Ni3S2@CP, CoS/Ni3S2@CP exhibits twofold greater UOR efficiency as a result of a larger electroactive surface area. The results obtained indicate that the synthetic CoS/Ni3S2@CP catalyst may be a favorable electrode material for managing urea-rich wastewater and generating H2.

KW - UORs

KW - electrodeposition

KW - heterojunction

KW - nickel-based chalcogenide electrocatalysts

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