Carbon nitride (C3N3) decorated with non-noble metal Ni2P Co-catalyst based nanocomposites for photocatalytic water splitting

Muhammad Ashraf; Nisar Ullah; Fazal Raziq; Ibrahim Khan; Khalid R. Alhooshani; Saheed Adewale Ganiyu; Muhammad Nawaz Tahir

doi:10.1016/j.electacta.2023.143296

Carbon nitride (C₃N₃) decorated with non-noble metal Ni₂P Co-catalyst based nanocomposites for photocatalytic water splitting

Muhammad Ashraf, Nisar Ullah, Fazal Raziq, Ibrahim Khan, Khalid R. Alhooshani, Saheed Adewale Ganiyu, Muhammad Nawaz Tahir

Research output: Journal Publication › Article › peer-review

2 Citations (Scopus)

Abstract

Carbon nitrides based 2D materials have been recently explored as visible light harvesting photocatalysts due to their unique optoelectronic properties. However, these materials require strategies to improve their photoconversion efficiencies by improving the separation of photoexcited charge carriers and minimizing their recombination. Here in this paper, we report the synthesis of 2D carbon nitride with formula C₃N₃ decorated with non-noble metal nickel phosphide (Ni₂P) co-catalyst-based nanocomposites (Ni₂P/C₃N₃) for the enhanced photoelectrochemical water splitting. The ratio of Ni₂P co-catalyst was varied from 1%, 2% and 3% in the nanocomposites. Under similar set of experimental conditions, the 2% Ni₂P co-catalyst loaded photocatalyst (2% Ni₂P/C₃N₃) showed significant enhancement in the photocurrent (43 µA/cm²) in comparison to the pristine C₃N₃ (23 µA/cm²) under 1 sun light irradiation. In addition, the 2% Ni₂P/C₃N₃ photocatalyst exhibited enhanced H₂ production rate (148 μmol h⁻¹ g⁻¹) than pure C₃N₃ (60 μmol h⁻¹ g⁻¹). In addition, the 2% Ni₂P/C₃N₃ nanocomposites demonstrated higher photostability. The H₂ production rate was almost the same after eight cycles conducted within 65 h of time. Moreover, Ni₂P/C₃N₃ nanocomposites are low cost, naturally abundant and environmentally friendly.

Original language	English
Article number	143296
Journal	Electrochimica Acta
Volume	470
DOIs	https://doi.org/10.1016/j.electacta.2023.143296
Publication status	Published - 1 Dec 2023
Externally published	Yes

Keywords

2D materials
Carbon nitrides (CN)
Hydrogen evolution
NiP@CN nanocomposites
PEC water splitting

ASJC Scopus subject areas

General Chemical Engineering
Electrochemistry

UN SDGs

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

Access to Document

10.1016/j.electacta.2023.143296

Cite this

@article{fa5b74cc9f1f49fba953936e82d8fbdc,

title = "Carbon nitride (C3N3) decorated with non-noble metal Ni2P Co-catalyst based nanocomposites for photocatalytic water splitting",

abstract = "Carbon nitrides based 2D materials have been recently explored as visible light harvesting photocatalysts due to their unique optoelectronic properties. However, these materials require strategies to improve their photoconversion efficiencies by improving the separation of photoexcited charge carriers and minimizing their recombination. Here in this paper, we report the synthesis of 2D carbon nitride with formula C3N3 decorated with non-noble metal nickel phosphide (Ni2P) co-catalyst-based nanocomposites (Ni2P/C3N3) for the enhanced photoelectrochemical water splitting. The ratio of Ni2P co-catalyst was varied from 1%, 2% and 3% in the nanocomposites. Under similar set of experimental conditions, the 2% Ni2P co-catalyst loaded photocatalyst (2% Ni2P/C3N3) showed significant enhancement in the photocurrent (43 µA/cm2) in comparison to the pristine C3N3 (23 µA/cm2) under 1 sun light irradiation. In addition, the 2% Ni2P/C3N3 photocatalyst exhibited enhanced H2 production rate (148 μmol h−1 g−1) than pure C3N3 (60 μmol h−1 g−1). In addition, the 2% Ni2P/C3N3 nanocomposites demonstrated higher photostability. The H2 production rate was almost the same after eight cycles conducted within 65 h of time. Moreover, Ni2P/C3N3 nanocomposites are low cost, naturally abundant and environmentally friendly.",

keywords = "2D materials, Carbon nitrides (CN), Hydrogen evolution, NiP@CN nanocomposites, PEC water splitting",

author = "Muhammad Ashraf and Nisar Ullah and Fazal Raziq and Ibrahim Khan and Alhooshani, {Khalid R.} and Ganiyu, {Saheed Adewale} and Tahir, {Muhammad Nawaz}",

note = "Publisher Copyright: {\textcopyright} 2023",

year = "2023",

month = dec,

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doi = "10.1016/j.electacta.2023.143296",

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T1 - Carbon nitride (C3N3) decorated with non-noble metal Ni2P Co-catalyst based nanocomposites for photocatalytic water splitting

AU - Ashraf, Muhammad

AU - Ullah, Nisar

AU - Raziq, Fazal

AU - Khan, Ibrahim

AU - Alhooshani, Khalid R.

AU - Ganiyu, Saheed Adewale

AU - Tahir, Muhammad Nawaz

PY - 2023/12/1

Y1 - 2023/12/1

N2 - Carbon nitrides based 2D materials have been recently explored as visible light harvesting photocatalysts due to their unique optoelectronic properties. However, these materials require strategies to improve their photoconversion efficiencies by improving the separation of photoexcited charge carriers and minimizing their recombination. Here in this paper, we report the synthesis of 2D carbon nitride with formula C3N3 decorated with non-noble metal nickel phosphide (Ni2P) co-catalyst-based nanocomposites (Ni2P/C3N3) for the enhanced photoelectrochemical water splitting. The ratio of Ni2P co-catalyst was varied from 1%, 2% and 3% in the nanocomposites. Under similar set of experimental conditions, the 2% Ni2P co-catalyst loaded photocatalyst (2% Ni2P/C3N3) showed significant enhancement in the photocurrent (43 µA/cm2) in comparison to the pristine C3N3 (23 µA/cm2) under 1 sun light irradiation. In addition, the 2% Ni2P/C3N3 photocatalyst exhibited enhanced H2 production rate (148 μmol h−1 g−1) than pure C3N3 (60 μmol h−1 g−1). In addition, the 2% Ni2P/C3N3 nanocomposites demonstrated higher photostability. The H2 production rate was almost the same after eight cycles conducted within 65 h of time. Moreover, Ni2P/C3N3 nanocomposites are low cost, naturally abundant and environmentally friendly.

AB - Carbon nitrides based 2D materials have been recently explored as visible light harvesting photocatalysts due to their unique optoelectronic properties. However, these materials require strategies to improve their photoconversion efficiencies by improving the separation of photoexcited charge carriers and minimizing their recombination. Here in this paper, we report the synthesis of 2D carbon nitride with formula C3N3 decorated with non-noble metal nickel phosphide (Ni2P) co-catalyst-based nanocomposites (Ni2P/C3N3) for the enhanced photoelectrochemical water splitting. The ratio of Ni2P co-catalyst was varied from 1%, 2% and 3% in the nanocomposites. Under similar set of experimental conditions, the 2% Ni2P co-catalyst loaded photocatalyst (2% Ni2P/C3N3) showed significant enhancement in the photocurrent (43 µA/cm2) in comparison to the pristine C3N3 (23 µA/cm2) under 1 sun light irradiation. In addition, the 2% Ni2P/C3N3 photocatalyst exhibited enhanced H2 production rate (148 μmol h−1 g−1) than pure C3N3 (60 μmol h−1 g−1). In addition, the 2% Ni2P/C3N3 nanocomposites demonstrated higher photostability. The H2 production rate was almost the same after eight cycles conducted within 65 h of time. Moreover, Ni2P/C3N3 nanocomposites are low cost, naturally abundant and environmentally friendly.

KW - 2D materials

KW - Carbon nitrides (CN)

KW - Hydrogen evolution

KW - NiP@CN nanocomposites

KW - PEC water splitting

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