Effects of Different Concentrations of Bismuth Molybdate as an Electrocatalyst for Water Splitting and Antibacterial Activity

Toaqeer Salman; Mohsin Javed; Sumera Zaib; Ahmad Alhujaily; Muhammad Adil Mansoor; Hamid Saeed Shah; Madiha Khan; Imtiaz Khan; Shahid Iqbal; Shaimaa A.M. Abdelmohsen; Randa A. Althobiti

doi:10.1002/jemt.70022

Effects of Different Concentrations of Bismuth Molybdate as an Electrocatalyst for Water Splitting and Antibacterial Activity

Toaqeer Salman, Mohsin Javed, Sumera Zaib, Ahmad Alhujaily, Muhammad Adil Mansoor, Hamid Saeed Shah, Madiha Khan, Imtiaz Khan, Shahid Iqbal, Shaimaa A.M. Abdelmohsen, Randa A. Althobiti

Research output: Journal Publication › Article › peer-review

Abstract

In this work, five different molar concentrations of Bi₂MoO₆ are prepared using the hydrothermal method. SEM, XRD, and FTIR are used to find out the morphology of the synthesized materials as ratio 1 (1:1), 2 (0.8:1.2), 3 (1.2:0.8), 4 (0.6:1.4), and 5 (1.4:0.6). The newly formed nanomaterial is spherical to cubic in shape as per the SEM results, with some agglomerates. The water splitting and antibacterial activity of the electrocatalyst are carried out without any irradiation of light, which is the novelty of this research work. According to EIS (parameter of water splitting), the change transfer (R_ct) value for ratio 3 (1.2:0.8) is 5 Ω and the R_ct value for ratio 5 (1.4:0.6) is 8.48 Ω. The R_s value for ratio 1 (1:1) was very low, R_s = 5.77 Ω, compared to the R_s value for ratio 2 (0.8:1.2), R_s = 6.75 Ω. For instance, activity for ratio 1 (1:1) showed less overpotential for HER and OER, which led to more water splitting and a lower R_ct number. For a better understanding, all the electrochemical factors and the time sequence of the different Bi₂MoO₆ ratios should be looked at: 1:1 ratio > 0.8:1.2 ratio > 1.2:0.8 ratio > 0.6:1.4 ratio > 1.4:0.6 ratio. The experimental results suggest that a 1:1 ratio between Bi and Mo exhibits higher electrochemical as well as antibacterial activity results.

Original language	English
Pages (from-to)	3017-3028
Number of pages	12
Journal	Microscopy Research and Technique
Volume	88
Issue number	11
DOIs	https://doi.org/10.1002/jemt.70022
Publication status	Published - Nov 2025
Externally published	Yes

Keywords

antibacterial activity
EIS
electrochemical activity
hydrothermal method

ASJC Scopus subject areas

Anatomy
Histology
Instrumentation
Medical Laboratory Technology

UN SDGs

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

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10.1002/jemt.70022

Cite this

Salman, T., Javed, M., Zaib, S., Alhujaily, A., Mansoor, M. A., Shah, H. S., Khan, M., Khan, I., Iqbal, S., Abdelmohsen, S. A. M., & Althobiti, R. A. (2025). Effects of Different Concentrations of Bismuth Molybdate as an Electrocatalyst for Water Splitting and Antibacterial Activity. Microscopy Research and Technique, 88(11), 3017-3028. https://doi.org/10.1002/jemt.70022

@article{1551a98ec6a346f7b062ac932a494d4e,

title = "Effects of Different Concentrations of Bismuth Molybdate as an Electrocatalyst for Water Splitting and Antibacterial Activity",

abstract = "In this work, five different molar concentrations of Bi2MoO6 are prepared using the hydrothermal method. SEM, XRD, and FTIR are used to find out the morphology of the synthesized materials as ratio 1 (1:1), 2 (0.8:1.2), 3 (1.2:0.8), 4 (0.6:1.4), and 5 (1.4:0.6). The newly formed nanomaterial is spherical to cubic in shape as per the SEM results, with some agglomerates. The water splitting and antibacterial activity of the electrocatalyst are carried out without any irradiation of light, which is the novelty of this research work. According to EIS (parameter of water splitting), the change transfer (Rct) value for ratio 3 (1.2:0.8) is 5 Ω and the Rct value for ratio 5 (1.4:0.6) is 8.48 Ω. The Rs value for ratio 1 (1:1) was very low, Rs = 5.77 Ω, compared to the Rs value for ratio 2 (0.8:1.2), Rs = 6.75 Ω. For instance, activity for ratio 1 (1:1) showed less overpotential for HER and OER, which led to more water splitting and a lower Rct number. For a better understanding, all the electrochemical factors and the time sequence of the different Bi2MoO6 ratios should be looked at: 1:1 ratio > 0.8:1.2 ratio > 1.2:0.8 ratio > 0.6:1.4 ratio > 1.4:0.6 ratio. The experimental results suggest that a 1:1 ratio between Bi and Mo exhibits higher electrochemical as well as antibacterial activity results.",

keywords = "antibacterial activity, EIS, electrochemical activity, hydrothermal method",

author = "Toaqeer Salman and Mohsin Javed and Sumera Zaib and Ahmad Alhujaily and Mansoor, \{Muhammad Adil\} and Shah, \{Hamid Saeed\} and Madiha Khan and Imtiaz Khan and Shahid Iqbal and Abdelmohsen, \{Shaimaa A.M.\} and Althobiti, \{Randa A.\}",

note = "Publisher Copyright: {\textcopyright} 2025 Wiley Periodicals LLC.",

year = "2025",

month = nov,

doi = "10.1002/jemt.70022",

language = "English",

volume = "88",

pages = "3017--3028",

journal = "Microscopy Research and Technique",

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TY - JOUR

T1 - Effects of Different Concentrations of Bismuth Molybdate as an Electrocatalyst for Water Splitting and Antibacterial Activity

AU - Salman, Toaqeer

AU - Javed, Mohsin

AU - Zaib, Sumera

AU - Alhujaily, Ahmad

AU - Mansoor, Muhammad Adil

AU - Shah, Hamid Saeed

AU - Khan, Madiha

AU - Khan, Imtiaz

AU - Iqbal, Shahid

AU - Abdelmohsen, Shaimaa A.M.

AU - Althobiti, Randa A.

PY - 2025/11

Y1 - 2025/11

N2 - In this work, five different molar concentrations of Bi2MoO6 are prepared using the hydrothermal method. SEM, XRD, and FTIR are used to find out the morphology of the synthesized materials as ratio 1 (1:1), 2 (0.8:1.2), 3 (1.2:0.8), 4 (0.6:1.4), and 5 (1.4:0.6). The newly formed nanomaterial is spherical to cubic in shape as per the SEM results, with some agglomerates. The water splitting and antibacterial activity of the electrocatalyst are carried out without any irradiation of light, which is the novelty of this research work. According to EIS (parameter of water splitting), the change transfer (Rct) value for ratio 3 (1.2:0.8) is 5 Ω and the Rct value for ratio 5 (1.4:0.6) is 8.48 Ω. The Rs value for ratio 1 (1:1) was very low, Rs = 5.77 Ω, compared to the Rs value for ratio 2 (0.8:1.2), Rs = 6.75 Ω. For instance, activity for ratio 1 (1:1) showed less overpotential for HER and OER, which led to more water splitting and a lower Rct number. For a better understanding, all the electrochemical factors and the time sequence of the different Bi2MoO6 ratios should be looked at: 1:1 ratio > 0.8:1.2 ratio > 1.2:0.8 ratio > 0.6:1.4 ratio > 1.4:0.6 ratio. The experimental results suggest that a 1:1 ratio between Bi and Mo exhibits higher electrochemical as well as antibacterial activity results.

AB - In this work, five different molar concentrations of Bi2MoO6 are prepared using the hydrothermal method. SEM, XRD, and FTIR are used to find out the morphology of the synthesized materials as ratio 1 (1:1), 2 (0.8:1.2), 3 (1.2:0.8), 4 (0.6:1.4), and 5 (1.4:0.6). The newly formed nanomaterial is spherical to cubic in shape as per the SEM results, with some agglomerates. The water splitting and antibacterial activity of the electrocatalyst are carried out without any irradiation of light, which is the novelty of this research work. According to EIS (parameter of water splitting), the change transfer (Rct) value for ratio 3 (1.2:0.8) is 5 Ω and the Rct value for ratio 5 (1.4:0.6) is 8.48 Ω. The Rs value for ratio 1 (1:1) was very low, Rs = 5.77 Ω, compared to the Rs value for ratio 2 (0.8:1.2), Rs = 6.75 Ω. For instance, activity for ratio 1 (1:1) showed less overpotential for HER and OER, which led to more water splitting and a lower Rct number. For a better understanding, all the electrochemical factors and the time sequence of the different Bi2MoO6 ratios should be looked at: 1:1 ratio > 0.8:1.2 ratio > 1.2:0.8 ratio > 0.6:1.4 ratio > 1.4:0.6 ratio. The experimental results suggest that a 1:1 ratio between Bi and Mo exhibits higher electrochemical as well as antibacterial activity results.

KW - antibacterial activity

KW - EIS

KW - electrochemical activity

KW - hydrothermal method

UR - https://www.scopus.com/pages/publications/105009908239

U2 - 10.1002/jemt.70022

DO - 10.1002/jemt.70022

M3 - Article

C2 - 40621680

AN - SCOPUS:105009908239

SN - 1059-910X

VL - 88

SP - 3017

EP - 3028

JO - Microscopy Research and Technique

JF - Microscopy Research and Technique

IS - 11

ER -

Effects of Different Concentrations of Bismuth Molybdate as an Electrocatalyst for Water Splitting and Antibacterial Activity

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

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