Mr. Saleh Al-Muqar, Albaydha University, Yemen.
𧬠Dr. Saleh Mohammed Saleh Al-Maaqar is a Yemeni researcher and Ph.D. candidate in Microbiological Sciences at King Abdulaziz University, Saudi Arabia. He specializes in infectious diseases, nanotechnology, and antimicrobial resistance. With over 15 peer-reviewed publications, his work includes novel approaches to combat MDR bacteria and develop green nanoparticles. He also serves as a lecturer at Albaydha University, Yemen. His dedication reflects excellence in innovative biomedical research. π±π¬π
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π Early Academic Pursuits
Saleh Mohammed Saleh Al-Maaqar began his academic journey with a strong foundation in Biological Sciences, earning his BSc in 2008 from Thamar University in Yemen. His commitment to knowledge led him to pursue an MSc in Biological Sciences at King Abdulaziz University (KAU), Saudi Arabia, which he completed in 2020. Driven by a passion for microbiological research, he is currently pursuing a Ph.D. in Microbiological Sciences at the same institution, marking a significant milestone in his scholarly growth.
π₯ Professional Endeavors
Saleh began his professional career as a teacher at the Ministry of Education in Yemen (2009β2010). He later transitioned into academia as an Assistant Lecturer at Al-Baydha University (2010β2014). These early roles allowed him to develop a strong pedagogical foundation while nurturing a research-oriented mindset that he would further cultivate during his doctoral journey in Saudi Arabia.
π¬ Contributions and Research Focus On Microbiology
Mr. Al-Maaqar has a deep research interest in infectious diseases, nanotechnology, and experimental medicine. His work includes food-borne pathogens like E. coli, Shigella, Salmonella, and Klebsiella, as well as multi-drug resistant (MDR) bacteria. Currently, his doctoral research explores the pharmacological properties of plant-based compounds such as Lavandula dentata, Capparis cartilage, and Saussurea costus, especially their effects on meningitis-causing bacteria.
π Impact and Influence
Through his interdisciplinary approach, Mr. Al-Maaqar is contributing to global public health solutions by developing sustainable antimicrobial strategies. His research on nanoparticle synthesis using plant extracts and natural product-based therapeutics has opened promising avenues for addressing antibiotic resistance, a critical healthcare challenge worldwide.
π§ Research Skills
Mr. Al-Maaqar is proficient in a range of advanced research techniques, including antimicrobial susceptibility testing (DDT, WDT, MIC, MBC, and time-kill curves), isolation and identification of bacteria, natural product extraction, and the use of software tools like SPSS, EndNote, and Mendeley. Additionally, he has a secretarial diploma in computer sciences, further supporting his data analysis and documentation capabilities.
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Awards and Honors
While specific awards are not listed, Mr. Al-Maaqarβs publication track record and international academic engagement signify high scholarly merit. His acceptance into a Ph.D. program at a top-tier university and collaboration with renowned scientists worldwide underscore his professional recognition and research excellence.
ποΈ Legacy and Future Contributions
As a rising scholar in microbiology and nanomedicine, Saleh Al-Maaqar is poised to leave a significant legacy through his ongoing research on plant-based antimicrobials and bacteriophage therapy. With the potential to develop eco-friendly therapeutic agents and reduce dependency on synthetic antibiotics, his future contributions are expected to influence both academia and industry. His vision aligns with global efforts toward sustainable healthcare innovations, and he is likely to become a prominent voice in the scientific community.
Publications Top Notes
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π§ͺ Biosynthesis of Novel Ag-Cu Bimetallic Nanoparticles from Leaf Extract of Salvia officinalis and Their Antibacterial Activity
π Journal: Life 13 (3), 653
π’ Citations: 37
π
Year: 2023
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π― In vitro antibacterial activity of honey against multidrug-resistant Shigella sonnei
π Journal: Complementary Therapies in Clinical Practice 41, 101257
π’ Citations: 22
π
Year: 2020
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πΏ The effect of different aqueous solutions ratios of Ocimum basilicum utilized in AgNPs synthesis on the inhibition of bacterial growth
π Journal: Scientific Reports 13 (1), 5866
π’ Citations: 16
π
Year: 2023
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βοΈ Optimization of biocatalytic steps via response surface methodologyβ¦
π Journal: Catalysis Letters 153 (9), 2543β2557
π’ Citations: 13
π
Year: 2023
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π± Effect of Different Ratios of Mentha spicata Aqueous Solutionβ¦
π Journal: Journal of Nanomaterials 2023 (1), 3599501
π’ Citations: 10
π
Year: 2023
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π Sensitivity of multidrug-resistant pathogenic bacteria to ethanolic extract of Ziziphus spina-christi L.
π Journal: Bioscience Research 19 (3), 1467β1475
π’ Citations: 10
π
Year: 2022
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π― Susceptibility of multidrug-resistant enteric pathogenic diarrheal Bacteria to Saudi Honey
π Journal: JKAU: Science 32 (1), 47β64
π’ Citations: 9
π
Year: 2020
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πΈ Phytochemical characterization and multifaceted bioactivityβ¦ Clinopodium nepeta
π Journal: CyTA – Journal of Food 22 (1), 2348735
π’ Citations: 5
π
Year: 2024
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π¬ Antibacterial and antibiofilm activity of extracts from sponge-associated bacterial endophytes
π Journal: Preparative Biochemistry & Biotechnology 53 (9), 1143β1153
π’ Citations: 5
π
Year: 2023
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π― SCREENING OF LACTIC ACID BACTERIA FROM SELECTED SAUDI HONEYβ¦
π Journal: β
π’ Citations: 5
π
Year: 2023
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π Isolation and identification of biofilm bacteria from microfoulingβ¦ Red Sea
π Journal: JKAU: Marine Science 31, 45β54
π’ Citations: 5
π
Year: 2021
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𧫠Development of silver-doped copper oxide and chitosan nanocompositesβ¦
π Journal: Zeitschrift fΓΌr Naturforschung C 79 (5β6), 137β148
π’ Citations: 4
π
Year: 2024
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𧲠Iron-Based Nanoparticles Synthesis, Characterization, and Antimicrobial Effectiveness
π Journal: Advancements in Life Sciences 11 (2), 525β532
π’ Citations: 3
π
Year: 2024
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π§Ό Optimization and Detergent Compatibility of Protease from Aspergillus oryzaeβ¦
π Journal: ACS Omega 9, 17446β17457
π’ Citations: 3
π
Year: 2024
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𧫠Bactericidal Activity of Coleus forskohlii Extract Against MDR Acinetobacter baumannii
π Journal: Bioscience Biotechnology Research Communications 14 (3), 1265β1271
π’ Citations: 2
π
Year: 2021
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π Serological investigation of Coxiella burnetii in livestock in Makkah Province
π Journal: Veterinary World 17 (4), 842β847
π’ Citations: 1
π
Year: 2024
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ποΈ Screening Desert Soils in Makkah Province for Actinomycetes Producing Antibiotics
π Journal: β
π’ Citations: 1
π
Year: 2021
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π― Evaluation of the antibacterial activity of local honey against bacteria causing diarrhea
π Journal: King Abdulaziz University Jeddah
π’ Citations: 1
π
Year: 2020