Open Access

Applied Physics A: Materials Science and Processing

, volume 128 , issue 2 , publication number 131

Cu2O nanoparticles decorated with MoS2 sheets for electrochemical reduction of CO2 with enhanced efficiency

Najrul Hussain ¹

Mohammad Ali Abdelkareem ^{1, 2, 3}

Hussain Alawadhi ^{1, 4}

Abdul Hai Alami ^{1, 2}

Khaled Elsaid ⁵

Hide authors affiliations Show authors affiliations: 5 affiliations

Center for Advanced Materials Research, Research Institute Of Sciences and Engineering, University of Sharjah, Sharjah, United Arab Emirates |

Department of Sustainable and Renewable Energy Engineering, University of Sharjah, Sharjah, United Arab Emirates |

Chemical Engineering Department, Minia University, Elminia, Egypt |

⁴

Department of Applied Physics & Astronomy, University of Sharjah, Sharjah, United Arab Emirates |

⁵

Chemical Engineering Program, Texas A&M University At Qatar, Doha, Qatar |

Publication type: Journal Article

Publication date: 2022-01-18

Springer Nature

Applied Physics A: Materials Science and Processing

scimago Q2

wos Q2

SJR: 0.486

CiteScore: 4.9

Impact factor: 2.8

ISSN: 09478396, 14320630

DOI: 10.1007/s00339-021-05230-0

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General Chemistry

General Materials Science

Abstract

Electrochemical CO2 reduction has drawn substantial attention not only due to the demand for energy but also the need for a sustainable environment. In this work, a non-noble based electrocatalyst (Cu2O-MoS2) was developed using a facile method for its application in CO2 reduction. The synthesized composite material was characterized using XPS, XRD, FTIR, Raman, FESEM and EDS. The Cu2O-MoS2 composite material presented outstanding electrocatalytic activity towards CO2 reduction, and showed a reducing current density of 113 mA/cm2-almost twice that of the bare Cu2O (61 mA/cm2) and eight times higher than that of MoS2 sheet (21.3 mA/cm2). Furthermore, the onset potential of the Cu2O-MoS2 composite material is much lower compared to bare Cu2O nanoparticles and MoS2 sheets. The faradaic efficiency of the Cu2O-MoS2 composite material depends on the applied potential and it was found to be 12.3% and 7.9% for methanol and ethanol at − 1.3 V and − 1.1 V, respectively.

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Hanif Muhammad Bilal

103 publications, 2 929 citations, 186 reviews

h-index: 32

Comenius University Bratislava

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GOST Copy

Hussain N. et al. Cu2O nanoparticles decorated with MoS2 sheets for electrochemical reduction of CO2 with enhanced efficiency // Applied Physics A: Materials Science and Processing. 2022. Vol. 128. No. 2. 131

GOST all authors (up to 50) Copy

Hussain N., Abdelkareem M. A., Alawadhi H., Alami A. H., Elsaid K. Cu2O nanoparticles decorated with MoS2 sheets for electrochemical reduction of CO2 with enhanced efficiency // Applied Physics A: Materials Science and Processing. 2022. Vol. 128. No. 2. 131

RIS |

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RIS Copy

TY - JOUR

DO - 10.1007/s00339-021-05230-0

UR - https://doi.org/10.1007/s00339-021-05230-0

TI - Cu2O nanoparticles decorated with MoS2 sheets for electrochemical reduction of CO2 with enhanced efficiency

T2 - Applied Physics A: Materials Science and Processing

AU - Hussain, Najrul

AU - Abdelkareem, Mohammad Ali

AU - Alawadhi, Hussain

AU - Alami, Abdul Hai

AU - Elsaid, Khaled

PY - 2022

DA - 2022/01/18

PB - Springer Nature

IS - 2

VL - 128

SN - 0947-8396

SN - 1432-0630

ER -

BibTex

Cite this

BibTex (up to 50 authors) Copy

@article{2022_Hussain,

author = {Najrul Hussain and Mohammad Ali Abdelkareem and Hussain Alawadhi and Abdul Hai Alami and Khaled Elsaid},

title = {Cu2O nanoparticles decorated with MoS2 sheets for electrochemical reduction of CO2 with enhanced efficiency},

journal = {Applied Physics A: Materials Science and Processing},

year = {2022},

volume = {128},

publisher = {Springer Nature},

month = {jan},

url = {https://doi.org/10.1007/s00339-021-05230-0},

number = {2},

pages = {131},

doi = {10.1007/s00339-021-05230-0}

}

Publisher

Springer Nature

Journal

Applied Physics A: Materials Science and Processing

scimago Q2

wos Q2

SJR

0.486

CiteScore

4.9

Impact factor

2.8

ISSN

09478396 (Print)

14320630 (Electronic)