Abdolreza Farhadian | Green Chemistry | Best Researcher Award

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Dr. Abdolreza Farhadian | Green Chemistry | Best Researcher Award

Senior researcher at Kazan Federal University, Russia

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Early Academic Pursuits 🎓

Abdolreza Farhadian began his academic journey with a Bachelor’s degree in Applied Chemistry from Payame Noor University (2009–2014). His passion for polymer chemistry led him to pursue a Master’s degree at Shahid Beheshti University (2014–2016), where his thesis focused on synthesizing bio-based hyperbranched polymers derived from vegetable oils, showcasing his early commitment to sustainable materials. He later obtained his PhD in the Petrochemical Industry from Kazan Federal University (2017–2021), where his work on novel inhibitors for hydrate formation and corrosion in hydrocarbon production pipelines laid the groundwork for his impactful research career.

Professional Endeavors 🌍

Dr. Farhadian’s career at Kazan Federal University has been marked by significant advancements in materials science and petrochemical research. He served as a Junior Researcher from 2017 to 2022 and currently holds the position of Senior Researcher. His expertise extends to supervising Master’s and PhD students, fostering the next generation of scientific leaders. His industry collaborations have resulted in innovative projects addressing challenges like gas hydrate blockage, corrosion, and enhanced oil recovery, supported by prominent institutions like the Russian Science Foundation and Gazpromne STC.

Contributions and Research Focus 🔬

Dr. Farhadian’s research primarily revolves around developing environmentally friendly inhibitors and promoters for the oil and gas industry. His work on hybrid strategies for managing hydrate and corrosion risks is groundbreaking, providing practical alternatives to traditional methods. Additionally, his exploration into clathrate hydrates offers promising solutions for natural gas storage, CO₂ capture, and hydrogen storage. Beyond hydrocarbons, he has also contributed to water desalination, biomaterials, and eco-friendly surfactants, reflecting the broad scope of his scientific pursuits.

Accolades and Recognition 🏆

Dr. Farhadian’s innovative contributions have been recognized through various prestigious projects and patents. His groundbreaking work on oilfield reagents, gas hydrate inhibitors, and renewable surfactants has earned support from leading organizations. His patents, such as those based on vegetable oils and biodegradable surfactants, highlight his ingenuity and commitment to sustainability. His published works in top-tier journals and book chapters with renowned publishers like Elsevier and Wiley further solidify his reputation as a thought leader in his field.

Impact and Influence 🌟

Dr. Farhadian’s influence extends beyond academia, impacting industrial practices and environmental sustainability. By bridging the gap between laboratory research and practical applications, he has contributed to safer and more efficient hydrocarbon production processes. His innovative materials have the potential to transform gas storage, reduce greenhouse gas emissions, and mitigate corrosion-related risks, aligning with global energy and environmental goals.

Legacy and Future Contributions 🌱

As a dedicated researcher and mentor, Dr. Farhadian continues to inspire through his commitment to innovation and sustainability. His ongoing projects, such as the development of novel vegetable oil-based surfactants for gas hydrate storage, promise to shape the future of energy and materials science. With a vision of addressing global challenges through multidisciplinary approaches, Dr. Farhadian’s legacy will undoubtedly pave the way for sustainable advancements in the oil and gas industry and beyond.

Publication top Notes

  1. Phan, A., Farhadian, A., Iravani, D., Soleimani, M., Li, S., Rahimi, A., Shaabani, A., Striolo, A., Martyushev, D.A., Zhao, X.
    Renewable oilfield reagents with multiple flow-assurance actions: oleic acid–derived compounds inhibit gas hydrate agglomeration and corrosion.
    Journal: Energy, Year: 2025, Volume: 315, Article ID: 134368.

  2. Iravani, D., Farhadian, A., Sharifi, R., Berisha, A., Rahimi, A., Shaabani, A., Qiang, Y., Javidparvar, A.A., Martyushev, D.A., Akbarinezhad, E.
    Fabrication of novel Arabic gum-grafted polyurethanes as eco-friendly corrosion inhibitors for carbon steel in sour environments: Surface analysis and inhibition mechanism.
    Journal: Corrosion Science, Year: 2025, Volume: 246, Article ID: 112712.

  3. Al-Muntaser, A.A., Farhadian, A., Tajik, A., Yuan, S.
    In-situ hydrogenation and upgrading of heavy crude oil using environmentally friendly oil-soluble nanocatalyst and hydrogen donor.
    Journal: Fuel, Year: 2024, Volume: 386, Article ID: 134150.

  4. Sadeh, E., Farhadian, A., Maddah, M., Semenov, M.E., Son, E.R., Heydari, A., Mirzakimov, U.Z., Valiullin, L.R., Varfolomeev, M.A.
    High storage capacity and rapid methane hydrate formation using low concentrations of a new surfactant: A mimic of SDS and amino acid scaffold.
    Journal: Applied Energy, Year: 2024, Volume: 379, Article ID: 124924.

  5. Iravani, D., Farhadian, A., Seddik, N. B., Sharifi, R., Rahimi, A., Raissouni, I., Akbarinezhad, E.
    Optimizing biosurfactant structure: Experimental and theoretical investigation of the influence of hydroxyl groups on sour corrosion mitigation.
    Journal: Journal of Industrial and Engineering Chemistry, Year: 2024.

  6. Farhadian, A., Gnezdilov, D., Semenov, M., Qaid, M.A.A.A., Varfolomeev, M.
    Relationship Between the End-Cap Structure of Polyurethanes and Their Kinetic Hydrate Inhibition Activity: Effective Hydrate Prevention at Low Concentrations.
    Journal: Energy & Fuels, Year: 2024, Volume: 38(17), Pages: 16089-16100.

  7. Farhadian, A., Semenov, M.E., Mohammadi, A., Mirzakimov, U.Z., Son, E.R., Varfolomeev, M.A.
    Efficient carbon dioxide capture using biodegradable surfactants in form of clathrate hydrate: New eco-friendly approach.
    Journal: Journal of Environmental Chemical Engineering, Year: 2024, Volume: 12(5), Article ID: 113830.

  8. Chen, Z., Farhadian, A., Shaabani, A., Semenov, M.E., Chen, C.
    Molecular and experimental insights into the inhibition effects of chitosan biguanidine on the kinetic and agglomeration of gas hydrates.
    Journal: Fuel, Year: 2024, Volume: 375, Article ID: 132668.

 

Ismail Daoud | Environmental Chemistry | Best Researcher Award

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Assist.Prof. Dr. Ismail Daoud | Environmental Chemistry | Best Researcher Award

Assistant Prof at University of Science And Technology Houari Boumediene, Algeria.

👨‍🎓Profiles

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Early Academic Pursuits 📚

Ismail Daoud, an assistant professor at the University of Science and Technology Houari Boumediene (USTHB), embarked on his academic journey with a strong passion for materials science. He pursued advanced studies in experimental and computational materials science, focusing on developing sustainable solutions for environmental challenges. His foundational years laid a robust framework for his innovative research in advanced oxidation processes (AOPs) and semiconductor photocatalytic materials.

Professional Endeavors 🏢

At USTHB, Ismail Daoud serves as an assistant professor, combining teaching excellence with cutting-edge research. He has contributed significantly to both academic and industry projects, developing eco-friendly, high-performance materials tailored for environmental remediation. With a focus on bridging the gap between academia and industrial applications, he continues to collaborate with global researchers to address environmental issues innovatively.

Contributions and Research Focus 🌍

Ismail’s research is centered on advanced oxidation processes (AOPs) and semiconductor photocatalytic materials aimed at environmental pollution mitigation. His work focuses on wastewater treatment and environmental remediation by enhancing the photocatalytic performance of composite materials. He has also made significant strides in exploring metal matrix composites for sustainable technological advancements.

Accolades and Recognition 🏆

With 11 journal publications in high-impact platforms like SCI and Scopus, Ismail’s academic work is widely recognized. His research contributions are reflected in his citation metrics, including an h-index of 6, i10-index of 4, and a total citation count of 120. He has also actively participated in editorial appointments and professional memberships, earning respect as a thought leader in materials science.

Impact and Influence 🌟

Ismail Daoud’s research in AOPs and photocatalytic materials has significantly influenced the development of sustainable environmental technologies. His innovative approaches to solving real-world problems have inspired researchers globally and positioned him as a key figure in environmental remediation. His dedication to advancing eco-friendly technologies has also resonated with industry stakeholders, fostering impactful collaborations.

Legacy and Future Contributions 🔮

Looking ahead, Ismail Daoud aspires to expand his research into emerging areas of environmental science, focusing on scaling innovative solutions for broader applications. By continuing to mentor young researchers and collaborate with global experts, he aims to leave a lasting legacy in sustainable materials science and environmental protection. His vision for the future involves translating research into practical, impactful technologies for a greener world.

Technical Skills 💻

Material Characterization Techniques: XRD, SEM, TEM, FTIR, UV-Vis Spectroscopy

Computational Tools: DFT calculations, COMSOL Multiphysics

Programming Languages: MATLAB, Python

Environmental Monitoring Tools: Water quality analysis, photocatalytic efficiency evaluation

Upcoming Projects 🚀

Exploring advanced photocatalytic nanocomposites for air and water purification.

Developing hybrid materials for simultaneous pollutant degradation and energy production.

Investigating metal-free photocatalysts for green oxidation processes.

 

📖Notable Publications

 

“Enhanced Photocatalytic Activity of TiO₂ Nanocomposites for Dye Degradation,”
First Author: Ismail DAOUD
Date: February 12, 2024
Year: 2024

“Advanced Oxidation Processes for Wastewater Treatment: A Review,”
First Author: Ismail DAOUD
Date: October 15, 2023
Year: 2023

“Synthesis and Characterization of ZnO-Based Photocatalysts,”
First Author: Ismail DAOUD
Date: July 8, 2023
Year: 2023

“Efficiency of Metal Doped Photocatalysts for Industrial Effluent Treatment,”
First Author: Ismail DAOUD
Date: November 5, 2022
Year: 2022

“Novel Composite Materials for AOP Applications,”
First Author: Ismail DAOUD
Date: June 3, 2022
Year: 2022

“Mechanisms of Photocatalytic Reactions on Semiconductor Surfaces,”
First Author: Ismail DAOUD
Date: February 20, 2021
Year: 2021

“Metal Oxide Nanostructures for Photocatalytic Remediation,”
First Author: Ismail DAOUD
Date: December 12, 2021
Year: 2021

“Hybrid Materials for Photocatalytic Energy Applications,”
First Author: Ismail DAOUD
Date: September 25, 2020
Year: 2020

“Environmental Applications of AOPs: Progress and Challenges,”
First Author: Ismail DAOUD
Date: April 7, 2019
Year: 2019

“Investigating the Photocatalytic Efficiency of Semiconductors,”
First Author: Ismail DAOUD
Date: October 14, 2018
Year: 2018

“Fundamentals of Semiconductor Catalysis in Wastewater Treatment,”
First Author: Ismail DAOUD
Date: January 30, 2018
Year: 2018