Prof. Behrooz Zargar | Analytical Chemistry | Best Researcher Award

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Prof. Behrooz Zargar | Analytical Chemistry | Best Researcher Award

Prof. Behrooz Zargar | Analytical Chemistry | Full Professor in Analytical Chemistry/Researcher/Lecturer at Shahid Chamran University of Ahvaz, Iran 

Prof. Behrooz Zargar is a distinguished Full Professor of Analytical Chemistry at Shahid Chamran University of Ahvaz, Iran, with over two decades of academic and research excellence. His expertise spans electrochemistry, nano-chemistry, solar cells, and environmental remediation. He has published over 60 high-impact research papers and actively collaborates with organizations such as ISO and the Iranian Safety and Environment Committee. As the Founder and Head of the Central Laboratory at Shahid Chamran University, he has played a pivotal role in advancing analytical techniques. His research has contributed significantly to pesticide analysis, mycotoxin detection, and nanomaterial-based pollutant degradation. His commitment to academia is reflected in his editorial appointments, research collaborations, and mentorship of numerous students. With an impressive citation index of 2143, Prof. Zargar’s groundbreaking work has influenced various industrial and environmental sectors, making him a leading figure in analytical and environmental chemistry.

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Summary of Suitability for Award:

Prof. Behrooz Zargar, a distinguished Professor of Analytical Chemistry at Shahid Chamran University of Ahvaz, has made remarkable contributions to analytical chemistry, particularly in nanotechnology, electrochemistry, and environmental chemistry. With over 60 publications in high-impact journals (SCI, Scopus indexed), a citation index of 2143, and extensive research in solar cells, solid-phase extraction, and photo-degradation, his scientific impact is substantial. His research collaborations, including work with ISO Organization and national standardization committees, demonstrate his leadership in applied scientific advancements. Additionally, his industry projects on food safety and environmental toxin analysis highlight his contributions to public health and sustainability. With a proven track record of pioneering research, industry collaborations, and leadership in analytical chemistry, Prof. Zargar stands as a highly deserving candidate for the “Best Researcher Award.” His groundbreaking research in nano-chemistry and solar cell technology continues to drive innovation, making him an excellent choice for this prestigious recognition.

🎓Education:

Prof. Behrooz Zargar holds a Ph.D. in Analytical Chemistry (2001) from Shahid Chamran University of Ahvaz. He earned his Master’s degree in Analytical Chemistry (1996) from the same institution, building a strong foundation in instrumental analysis and environmental monitoring. His Bachelor’s degree in Applied Chemistry (1992) from Isfahan University of Technology laid the groundwork for his interest in chemical applications for industrial and environmental solutions. Prior to university education, he completed a Diploma in Experimental Sciences, fostering his analytical skills early on. His academic journey reflects a commitment to precision, innovation, and interdisciplinary research. Over the years, he has integrated electrochemical, spectroscopic, and chromatographic techniques into his research, making significant contributions to chemical science. His education has been instrumental in shaping his expertise in nano-chemistry, separation sciences, and environmental remediation, areas where he continues to make impactful discoveries.

🏢Work Experience:

Prof. Zargar’s academic career spans over two decades at Shahid Chamran University of Ahvaz, where he has held various positions. He served as an Assistant Professor (2002-2009), progressing to Associate Professor (2009-2017), and was promoted to Full Professor in 2017. With a Grade 32 ranking, he has contributed extensively to teaching, research, and institutional leadership. He has collaborated with ISO, developed national safety and environmental standards, and played a key role in nanotechnology advancements. His consultancy work has influenced industries by assessing toxic residues in food, environmental contaminants, and industrial pollutants. As the Founder and Head of the Central Laboratory at Shahid Chamran University, he has enhanced research infrastructure, fostering innovation. His experience extends to mentoring Ph.D. and Master’s students, shaping the next generation of chemists. His expertise in solar cells, electroless plating, corrosion, and electrochemical preconcentration has made him a respected figure in analytical and industrial chemistry.

🏅Awards: 

Prof. Behrooz Zargar’s contributions to analytical chemistry and environmental sciences have earned him numerous accolades. He was recognized for 10 years of excellent service to ISO/TC 17/SC 1/ WG 74 in 2025 for his contributions to steel chemical composition analysis. His work in nanotechnology and environmental monitoring has been acknowledged by national and international scientific committees. As a key member of the Iranian Safety and Environment Committee, he has shaped national policies on chemical safety and environmental sustainability. His editorial appointments in high-impact journals further highlight his scholarly influence. His innovative work in photo-degradation, nano-based solid-phase extraction, and pesticide residue analysis has led to several research grants and industrial collaborations. His role in the development of national analytical standards in Khuzestan, Iran, reflects his commitment to advancing chemical safety regulations. Prof. Zargar’s outstanding research contributions and institutional leadership make him a highly esteemed scientist.

🔬Research Focus:

Prof. Zargar’s research spans analytical, environmental, and industrial chemistry, with a strong emphasis on nanotechnology applications. His work in electrochemical preconcentration and separation techniques has improved trace-level detection of contaminants in food and water. His nano-chemistry expertise has advanced solar cell technology, particularly FeS₂/TiO₂-based solar cells. He has pioneered printed-based voltammetric selective electrodes for precise electrochemical analysis. His work in photo-degradation of cyanide ions using nanomaterials has significant environmental implications. He has developed aerogel-based solid-phase extraction methods for efficient pollutant removal. His industrial research includes toxic residue detection in grains, milk, and bread. His collaboration with ISO and the Iranian Nanotechnology Committee has led to the establishment of new safety and environmental guidelines. His research continues to bridge analytical chemistry with environmental sustainability, contributing to the development of safer chemical practices and advanced material applications.

Publication Top Notes:

A nano curcumin–multi-walled carbon nanotube composite as a fluorescence chemosensor for trace determination of celecoxib in serum samples

An effervescence-assisted dispersive liquid–liquid micro-extraction of captopril based on hydrophobic deep eutectic solvent

Citations: 8

Determination of Tetracycline Using Ultrasound-Assisted Dispersive Liquid–Liquid Microextraction Based on Solidification of Floating Organic Droplet Followed by HPLC–UV System​​

Over-oxidized carbon paste electrode modified with pretreated carbon nanofiber for the simultaneous detection of epinephrine and uric acid in the presence of ascorbic acid​​

Dendrimer-modified magnetic nanoparticles as a sorbent in dispersive micro-solid phase extraction for preconcentration of metribuzin in a water sample​​

Synthesis and dye adsorption studies of the {dibromo(1,1′-(1,2-ethanediyl)bis(3-methyl-imidazole-2-thione)dicopper(i)}n polymer and its conversion to CuO nanospheres for photocatalytic and antibacterial applications​​

Adsorption and removal of ametryn using graphene oxide nano-sheets from farm waste water and optimization using response surface methodology​​

Application of vortex-assisted solid-phase extraction for the simultaneous preconcentration of Cd(ii) and Pb(ii) by nano clinoptilolite modified with 5(p-dimethylaminobenzylidene) rhodanine​​

Metal oxide/TiO₂ nanocomposites as efficient adsorbents for relatively high temperature H₂S removal​​

Novel magnetic hollow zein nanoparticles for preconcentration of chlorpyrifos from water and soil samples prior to analysis via high-performance liquid chromatography (HPLC)

**Synthesis of an ion-imprinted sorbent by surface imprinting of magnetized carbon nanotubes for determination

Tayebe Bagheri Lotfabad | Chemical Engineering | Best Researcher Award

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Dr. Tayebe Bagheri Lotfabad | Chemical Engineering | Best Researcher Award

Doctorate at National Institute for Genetic Engineering and Biotechnology, Iran

Dr. Tayebe Bagheri Lotfabad is a prominent figure in the field of Chemical Engineering with a specialization in Biotechnology. Her work primarily addresses environmental challenges through innovative biotechnological solutions, focusing on microbial processes and biosurfactant production. With a strong academic background and extensive research experience, Dr. Lotfabad has significantly contributed to advancing sustainable practices in wastewater treatment and pollution remediation, making her a respected leader in her field.

Author Metrics

Scopus Profile

ORCID Profile

Dr. Lotfabad has established a significant presence in the scientific community, as evidenced by her author metrics. She has published numerous articles in reputable, peer-reviewed journals, achieving a notable h-index that reflects her impactful research contributions. Her work has garnered substantial citations, underscoring her influence and the relevance of her studies in environmental biotechnology and chemical engineering.

  • Total Citations: 991 citations across 864 documents, indicating a significant impact in her field.
  • Documents Published: 26 documents, showcasing a consistent output of research work.
  • h-index: 14, reflecting both the productivity and citation impact of her published work.

Education

Dr. Lotfabad holds a Ph.D. in Chemical Engineering – Biotechnology from Sharif University of Technology, completed in 2009. Prior to her doctoral studies, she earned her M.Sc. in Chemical Engineering – Biotechnology in 2001 from the same institution and her B.Sc. in Chemical Engineering – Petroleum Refining from Tehran University in 1996. This rigorous educational foundation has equipped her with the necessary skills and knowledge to tackle complex challenges in her research.

Research Focus

Dr. Lotfabad’s research focus encompasses several critical areas within environmental biotechnology, including the microbial degradation of environmental pollutants, the production of biosurfactants, and the development of efficient wastewater treatment processes. Her work aims to innovate sustainable solutions that utilize microbial systems to address pressing ecological issues, particularly in the realm of pollution control and resource recovery.

Professional Journey

Since earning her Ph.D., Dr. Lotfabad has embarked on a dynamic professional journey marked by significant contributions to academia and research. She has held various positions at the National Institute of Genetic Engineering and Biotechnology, where she has led numerous projects and collaborated with diverse teams. Her dual role as an educator and researcher has allowed her to mentor students while advancing scientific knowledge in her areas of expertise.

Honors & Awards

Throughout her career, Dr. Lotfabad has received several prestigious awards recognizing her outstanding contributions to the field of environmental biotechnology. These honors reflect her innovative research and the societal impact of her work, particularly in developing methods for effective pollution management and sustainable resource utilization.

Publications Noted & Contributions

Dr. Lotfabad has an extensive publication record, featuring influential research articles in high-impact journals. Her notable contributions include studies on the microbial degradation of azo dyes and the production of biosurfactants from renewable resources. These publications not only advance academic knowledge but also provide practical solutions for environmental remediation, underscoring her commitment to impactful research.

1. Determining Kinetics Parameters of Bovine Serum Albumin-Protected Gold Nanozymes Toward Different Substrates

Published: July 3, 2023 | DOI: 10.32388/7VCB35

This study investigates the kinetics of gold nanozymes stabilized by bovine serum albumin (BSA) when interacting with various substrates. The research employs kinetic modeling to assess how these nanozymes catalyze reactions, contributing to the understanding of their potential applications in biocatalysis and biosensing. The findings demonstrate that BSA effectively enhances the stability and activity of the gold nanozymes, paving the way for their utilization in biomedical and environmental applications.

2. Study on the Use of Bovine Blood Protein Hydrolysate as a Peptone in Microbial Culture Media

Published: July 3, 2023 | DOI: 10.1080/10826068.2022.2119577

This article explores the feasibility of using bovine blood protein hydrolysate as a peptone alternative in microbial culture media. The authors, including Lotfabad, present experimental results showing that the hydrolysate supports the growth of various microorganisms, thus offering a cost-effective and sustainable option for microbial cultivation. This work highlights the potential of utilizing animal by-products in biotechnological applications, promoting resource efficiency.

3. Biological Activated Carbon Process for Biotransformation of Azo Dye Carmoisine by Klebsiella spp.

Published: August 11, 2022 | DOI: 10.1080/09593330.2021.1897167

In this research, the authors investigate the use of biological activated carbon as a medium for the biotransformation of the azo dye Carmoisine by Klebsiella species. The study demonstrates the efficacy of this method in degrading azo dyes, which are known for their environmental toxicity. The results indicate that the biological activated carbon significantly enhances the removal rates of the dye, providing insights into effective wastewater treatment strategies.

4. Biodecolourization of Azo Dye Under Extreme Environmental Conditions via Klebsiella quasipneumoniae GT7: Mechanism and Efficiency

Published: June 20, 2022 | DOI: 10.18502/jehsd.v7i2.9789

This study focuses on the strain Klebsiella quasipneumoniae GT7 and its ability to degrade azo dyes under harsh environmental conditions. The research elucidates the mechanisms behind the biodecolorization process and assesses the efficiency of this strain in real-world scenarios. The findings provide valuable information for developing robust bioremediation techniques for dye-contaminated environments.

5. Azo Dye Removal via Surfactant-Assisted Polyvinylidene Fluoride Membrane

Published: February 15, 2021 | DOI: 10.34172/EHEM.2021.04

In this article, the authors examine the use of surfactant-assisted polyvinylidene fluoride (PVDF) membranes for the removal of azo dyes from aqueous solutions. The study highlights the advantages of using surfactants to enhance membrane filtration performance, resulting in improved dye removal efficiency. This research has significant implications for developing advanced membrane technologies for wastewater treatment.

Research Timeline

Dr. Lotfabad’s research timeline illustrates a consistent trajectory of inquiry and innovation in environmental biotechnology. From her early studies during her Ph.D. to her ongoing projects focused on wastewater treatment and biosurfactant production, she has continuously explored the intersection of chemical engineering and microbiology, making significant strides in her research endeavors.

Conclusion

Dr. Tayebe Bagheri Lotfabad’s significant contributions to chemical engineering and biotechnology underscore her role as a leading researcher in environmental sustainability. Her innovative solutions to pollution and wastewater treatment not only advance academic knowledge but also offer practical approaches to pressing environmental challenges. While she has achieved notable recognition and impact in her field, there are opportunities for further growth through interdisciplinary collaboration, public engagement, and the exploration of diverse research avenues. Embracing these opportunities will not only enhance her own research trajectory but also contribute to broader societal benefits.