Tag: Barakat Kamil

Barakat Kamil, Chemistry, Innovative Researcher Award

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Dr. Barakat Kamil: Al-mustansiriyah university, Iraq

Dr. Barakat A. F. Kamil is an Assistant Professor at the University of Al-Mustansiriyah in the Department of Chemistry. He holds a PhD in Physical Chemistry and specializes in nanochemistry, theoretical chemistry, and complex systems. With 17 published papers, his research bridges the gap between theoretical models and experimental chemistry, especially focusing on adsorption processes, nanomaterials, and photolysis.

Online Profiles

Dr. Kamil’s academic work can be found across several online academic databases:

These profiles provide detailed information on his citation history, published works, and contributions to the field.

Citations & Impact

Dr. Barakat A. F. Kamil’s work has been cited 29 times in total, with 25 citations coming since 2020. His research has had a steady and growing influence within the academic community, particularly in the fields of physical chemistry and nanotechnology.

h-index

Dr. Kamil has an h-index of 3, reflecting the cumulative impact of his publications. The h-index measures both the number of publications and the citation frequency, indicating that his most influential papers have been cited at least 3 times.

Education

Dr. Kamil earned his PhD in Physical Chemistry, with a focus on chemical modeling, adsorption processes, and nanomaterials. His educational background laid the foundation for his ongoing research in theoretical and applied chemistry, particularly within the field of nanochemistry.

Research Focus

Dr. Kamil’s research revolves around the synthesis, characterization, and theoretical study of nanomaterials, particularly focusing on their applications in adsorption processes and photolysis. His work extends to drug-complex interactions and their biological effects, using both experimental and computational approaches. He also explores the surface chemistry of metal oxide nanoparticles, such as Y₂O₃ and ZnO, and their use in environmental and pharmaceutical applications.

Experience

Dr. Kamil has been serving as an Assistant Lecturer in Chemistry at the University of Al-Mustansiriyah since 2020. His teaching and research activities are centered on Physical Chemistry and Nanochemistry, where he combines theoretical knowledge with practical applications in the development of nanomaterials for environmental and health-related applications.

Research Timeline & Activities

Dr. Kamil’s research trajectory includes significant work on the synthesis of nano-aluminum oxide, adsorption isotherms, and the development of mixed drug complexes. Key activities span from 2014 to the present, with a particular emphasis on the thermodynamic and kinetic aspects of adsorption processes and the theoretical modeling of new chemical compounds. His work on the photo-degradation of pharmaceuticals and nanomaterial-based adsorption studies has been foundational in the development of environmentally friendly solutions.

Top Noted Publication

One of Dr. Kamil’s most significant publications is “Preparation, diagnosis, biological activity, and theoretical studies of some mixed drug complexes”, published in The Scientific World Journal in 2019. This paper explores the synthesis and biological efficacy of drug-metal complexes, contributing to both theoretical and practical aspects of medicinal chemistry.

  • “Preparation, diagnosis, biological activity, and theoretical studies of some mixed drug complexes”
    The Scientific World Journal, 2019 (1), 8962923.
    Cited by 8
    This paper explores the preparation and characterization of mixed drug-metal complexes, assessing their biological activity and providing a detailed theoretical analysis. The research is significant in the context of drug design and therapeutic applications.

  • “Adsorption isotherms and thermodynamic study of direct blue2 (DB2) dye on Y₂O₃ nanoparticles”
    Egyptian Journal of Chemistry, 63(12), 4731-4737, 2020.
    Cited by 4
    This study investigates the adsorption behavior of Direct Blue 2 dye on Y₂O₃ nanoparticles. The research includes a detailed thermodynamic and kinetic analysis of the adsorption process, providing insights into dye removal mechanisms using nanomaterials.

  • “Adsorption Isotherms, kinetics and thermodynamic studies of Vat Brown 16 dye using ZnO and Nano-ZnO particles”
    Research Journal of Pharmacy and Technology, 11(9), 3998-4002, 2018.
    Cited by 4
    The study focuses on the adsorption of Vat Brown 16 dye onto ZnO and Nano-ZnO particles, analyzing the adsorption isotherms, kinetics, and thermodynamics. The paper contributes to understanding the potential of ZnO nanoparticles in dye removal and environmental applications.

  • “Characterization and spectroscopic study of 4-(4-nitro benzene azo)-3-amino benzoic acid compound by Gaussian 09 program: A review”
    International Journal of Research in Pharmaceutical Sciences, 10, 787-790, 2019.
    Cited by 3
    This review article uses computational chemistry to analyze the structure and properties of a specific compound, employing the Gaussian 09 program for molecular modeling and spectroscopic study. It offers insights into the potential pharmaceutical applications of the compound.

  • “Synthesis and theoretical study of new quinazolinone derivatives containing various heterocyclic moieties”
    International Research Journal of Pharmacy, 9(5), 75-80, 2018.
    Cited by 3
    This research focuses on the synthesis of quinazolinone derivatives, investigating their structural features and potential biological activities. Theoretical studies complement the synthesis work, providing a deeper understanding of the chemical properties and reactivity of these compounds.

Strengths tailored for the Innovative Researcher Award, based on the profile and achievements of Dr. Barakat A. F. Kamil:

1. Pioneering Contributions in Nanochemistry

Dr. Kamil has demonstrated remarkable innovation in synthesizing and characterizing nanomaterials, particularly metal oxide nanoparticles such as Y₂O₃ and ZnO. His work provides advanced insights into adsorption mechanisms and photolytic pathways, contributing significantly to emerging applications in environmental and pharmaceutical chemistry.

2. Integration of Theoretical and Experimental Chemistry

A defining strength of Dr. Kamil’s research is his ability to seamlessly merge theoretical models with experimental practice. Through computational chemistry tools such as Gaussian 09, he has advanced understanding of molecular structures, drug–metal interactions, and reaction mechanisms, pushing the boundaries of physical chemistry research.

3. Impactful Research Output and Growing Scientific Influence

With 17 peer-reviewed publications and a citation record that continues to rise, Dr. Kamil has established a solid scientific footprint. His h-index of 3 and 29 citations—25 of which have occurred since 2020—reflect the relevance and increasing academic impact of his research in nanotechnology and adsorption science.

4. Environmental and Pharmaceutical Applications of Research

His work addresses pressing global challenges by developing nanomaterial-based solutions for wastewater treatment, dye removal, and pharmaceutical degradation. These contributions highlight his ability to transform scientific knowledge into practical, environmentally conscious innovations.

5. Commitment to Advancing Scientific Knowledge Through Collaboration and Teaching

As an Assistant Professor and active research collaborator, Dr. Kamil plays a vital role in mentoring students, advancing laboratory methodologies, and fostering a productive research environment. His ability to guide experimental work while contributing theoretical expertise positions him as a key driver of innovation within his department.