Guoqiang Luan | geochemical proxies Award | Best Researcher Award

Dr. Guoqiang Luan, geochemical proxies Award, Best Researcher Award

PHD at China University of Petroleum, China

Guoqiang Luan, based at China University of Petroleum (East China), specializes in reservoir characterizations, diagenesis, and geochemistry. His research explores diagenetic processes, water-rock interactions, and low-temperature geochemistry in carbonate and sandstone formations. Luan investigates reservoir quality, focusing on the formation of porosity/microporosity, and studies dolomitization’s impact on porosity development. He also delves into the diagenesis of organic-rich shale. Luan holds a Ph.D. in Geology from China University of Petroleum (East China), with a Visiting Ph.D. in Geochemistry from Memorial University of Newfoundland, Canada.

Professional Profiles:

Scopus profile

ResearchGate profile

Education:

Visiting Ph.D. in Geochemistry Memorial University of Newfoundland, Canada October 2019 Ph.D. in Geology China University of Petroleum (East China), China September 2016 M.Sc. in Geology China University of Petroleum (East China), China September 2014 B.Sc. in Geology China University of Petroleum (East China), China September 2010

Field of Interest

Reservoir Characterizations, Diagenesis, and Geochemistry: Diagenesis and Water-Rock Interaction: Guoqiang Luan’s research focuses on understanding diagenetic processes and water-rock interactions, particularly in carbonates and sandstones, with an emphasis on low-temperature geochemistry. Reservoir Quality Evaluation: He is interested in evaluating reservoir quality and investigating the diagenetic processes that lead to the formation of porosity/microporosity in carbonates and sandstones. Dolomitization and Porosity Development: Luan studies dolomitization and its impact on porosity development in geological formations, exploring the controls on porosity enhancement. Diagenesis of Organic-Rich Shale: His research extends to the diagenesis of organic-rich shale, delving into the geological processes influencing its formation and properties.

Research Focus:

Guoqiang Luan’s research primarily focuses on reservoir diagenesis, carbonate cements, and geochemical controls on sedimentary formations. Through a series of impactful publications, he has explored the origins and distribution of carbonate cements in turbidite sandstones, fault-controlled carbonate cementation in delta sandstones, and the hydrogeochemistry of oil-field formation water. Additionally, Luan has investigated the origin of dolomites in oolitic carbonates and the development conditions of hyperpycnal flows. His contributions shed light on the evolution of organic-rich shale through pyrolysis simulation experiments and the characteristics of natural fluid pressure fractures in shale formations.

Publications (TOP NOTES)

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Qingzhi Lai | Ocean Engineering Award | Young Scientist Award

Assoc Prof Dr. Qingzhi Lai, Ocean Engineering Award, Young Scientist Award

PHD at Harbin Institute of Technology, China

Dr. Lai Qingzhi is an Associate Professor and Deputy Department Chair at the School of New Energy, Harbin Institute of Technology, Weihai. With a Ph.D. in Engineering Thermophysics and extensive experience in atmospheric and oceanic sciences, he specializes in energy engineering and thermophysics. His research interests include atmosphere-ocean radiative transfer, energy storage, and thermal control technology. Dr. Lai has published extensively in reputable journals, contributing significantly to the field. With a strong academic background and leadership roles, he continues to advance research in integrated smart energy and energy digitization.

Professional Profiles:

Scopus profile

Orcid profile

Googlescholar profile

ResearchGate profile

Education:

Ph.D. in Engineering Thermophysics, Harbin Institute of Technology (2017 – 2021) Graduate Research Traineeship (GRT) in Atmospheric and Oceanic Sciences, McGill University (2020 – 2021) M.Sc. in Power Engineering and Engineering Thermophysics, Harbin Institute of Technology (2015 – 2017) B.Sc. in Energy and Power Engineering, Harbin Institute of Technology (2011 – 2015)

Employment:

Associate Professor (2024 – Present): School of New Energy, Harbin Institute of Technology, Weihai Deputy Department Chair (2023 – Present): School of New Energy, Harbin Institute of Technology, Weihai Lecturer (2022 – 2023): School of New Energy, Harbin Institute of Technology, Weihai

Research Interests:

Atmosphere-ocean radiative transfer and Ocean remote sensing Integrated Smart Energy and Energy Digitization Efficient energy storage and thermal control technology

AWARDS

Highly Cited Original Paper 2016, Applied Energy:

Research Focus:

Dr. Qingzhi Lai’s research primarily focuses on the electrochemical modeling and parameter estimation of battery systems, particularly lead-acid and lithium-ion batteries. His work encompasses methods for state-of-charge (SOC) estimation, optimization of charging strategies for battery maintenance, and analysis of parameter sensitivity in battery electrochemical dynamics. Additionally, Dr. Lai explores thermal coupling models for batteries under various operating conditions, including low temperatures. His research contributes to the development of efficient battery management strategies, optimization of charging protocols, and advancement of battery system identification techniques, ultimately enhancing the performance and reliability of electric vehicle and energy storage systems.

Publications (TOP NOTES)

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Ibrahim Ali Altoom Abdalla | Particle Experiments Award | Best Researcher Award

Dr. Ibrahim Ali Altoom Abdalla, Particle Experiments Award, Best Researcher Award

PHD at Donghua University, Shanghai, China

Ibrahim Ali Altoom Abdalla, known as é˜æäøœ, is a Sudanese researcher with a diverse educational background. He holds a B.Sc. in Textile Engineering from Sudan University of Science and Technology and a Ph.D. in Engineering from Donghua University, Shanghai, China. With expertise in nanofiber technology, Ibrahim has received numerous scholarships and honors for his academic achievements. He possesses strong language skills in English, Chinese, and Arabic. Throughout his career, Ibrahim has gained extensive experience in both academic and industrial settings, showcasing his expertise in various laboratory characterization instruments. He is dedicated to professionalism and strives to utilize his knowledge for the advancement of humanity.

Professional Profiles:

Orcid profile

Googlescholar profile

ResearchGate profile

Education:

Primary School: Al-Misaktab South Al-Sabaloga School (1992-2000) Secondary School: Omdurman Al-Thawra Quarter One School (2000-2003) B.Sc. (Honours) in Textile Engineering: Sudan University of Science and Technology (SUST) (2003-2008) Diploma in Computer: International Center for Computer Science (April 7, 2009 – April 7, 2010) M.Sc. in Engineering, Material Processing Engineering: Donghua University, Shanghai, China (September 2013 – March 2016) Ph.D. in Engineering, Nanofiber Institute: Donghua University, Shanghai, China (September 2016 – March 2019)

Scholarships & Honors

Various awards and scholarships from Donghua University, Shanghai, China.

Intern or Work Experience

Various training and work experiences in Sudan and China, including positions at Sudan University of Science and Technology and postdoctoral work at Tongji University, Shanghai.

Research Focus:

Ibrahim Ali Altoom Abdalla’s research primarily focuses on advanced materials and their applications in various fields. His expertise lies in the development of nanofibrous membranes for diverse functionalities, including high-efficiency electromagnetic wave absorption, wearable triboelectric nanogenerators, and multifunctional sensing textiles. Additionally, he explores the fabrication of composite nanofibrous membranes for antibacterial properties and broad-range microwave absorption. Abdalla’s contributions extend to investigating pH-responsive block glycopolymers for drug delivery systems. His research endeavors showcase a multidisciplinary approach, combining materials science, nanotechnology, and biomedical engineering to address contemporary challenges in energy harvesting, sensing, and healthcare applications.

Publications (TOP NOTES)

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Quan-Doan Mai | Materials Science Award | Best Researcher Award

Dr. Quan-Doan Mai, Materials Science Award, Best Researcher Award

Researcher at the prestigious Phenikaa University Nano Institute (PHENA), Vietnam

Quan-Doan Mai, an expert in materials science, graduated with an Engineering Degree in Electrical Materials and Nanotechnology from HUST, Vietnam, in 2021. He furthered his education with a Master’s Degree in Materials Science from Phenikaa University in 2023. Presently, Mai contributes as a Researcher at the Phenikaa University Nano Institute (PHENA), Vietnam, specializing in the development of smart functional materials and innovative techniques for advanced sensing applications. His dedication to scientific advancement and research excellence positions him as a key figure in the field, poised to make significant contributions to the development of cutting-edge technologies.

Professional Profiles:

Scopus profile

Orcid profile

LinkedIn profile

Education:

Quan-Doan Mai is a dedicated researcher and scholar who has made significant strides in the field of materials science. He embarked on his academic journey by earning his Engineering Degree in Electrical Materials and Nanotechnology from Ha Noi University of Science and Technology (HUST), Vietnam, in 2021. This foundational education equipped him with a solid understanding of the fundamentals of his field.

Driven by a passion for advancing his knowledge and contributing to scientific innovation, Quan-Doan Mai pursued further studies and attained a Master’s Degree in Materials Science from Phenikaa University, Vietnam, in 2023. This postgraduate experience allowed him to delve deeper into the intricacies of materials science, honing his expertise and research skills.

Work Experience:

Currently, Quan-Doan Mai serves as a valued Researcher at the prestigious Phenikaa University Nano Institute (PHENA), situated within Phenikaa University in Vietnam. In this role, he is at the forefront of cutting-edge research, specializing in the development of smart functional materials and pioneering new techniques for advanced sensing applications.

Research Focus:

Quan-Doan Mai’s research primarily focuses on the development and application of advanced nanomaterials for enhanced sensing capabilities. His work spans various domains, including the utilization of semiconductor-based nanostructures for ultrasensitive detection of chemical contaminants in diverse samples such as pesticides in agricultural products and pollutants in water bodies. Mai’s expertise lies in harnessing the unique properties of materials like graphene oxide, silver, titanium dioxide, and molybdenum sulfide to improve the sensitivity and accuracy of sensing platforms, particularly in surface-enhanced Raman spectroscopy (SERS). His innovative contributions advance the field of analytical chemistry, facilitating rapid and reliable detection methods for environmental and food safety monitoring.

Publications (TOP NOTES)

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Mohamed sheik sirajuddeen mohamedabdullah | computational materials science Award | Innovation in Computational Science Award

Dr. Mohamed sheik sirajuddeen mohamedabdullah, computational materials science Award, Innovation in Computational Science Award

PHD at B.S.Abdur Rahman Crescent Institute of Science and Technology, India

Mohamed Sheik Sirajuddeen M ,M.Sc., M.Phil., Ph.D is an accomplished Associate Professor at B.S.Abdur Rahman Crescent Institute of Science and Technology, Chennai, India. With 21 years of teaching and 10 years of research experience, he specializes in Computational Materials Science, focusing on Density Functional Theory(DFT). His research explores electronic properties of materials, notably transition binary nitrides for semiconductor applications. He holds a Ph.D. in Condensed Matter Physics and has authored numerous papers in international journals. Recognized for his teaching excellence and contributions to Physics, he continues to inspire through his passion for research and commitment to academic advancement.

Professional Profiles:

Scopus profile

Orcid profile

LinkedIn profile

Education:

Ph.D in Condensed Matter Physics (Computational) from Anna University, Chennai, India, 2016 M.Phil in Physics from Manonmaniam Sundranar University, Tirunelveli, India, 2006 M.Sc. in Physics from Bharathidasan University, Trichy, India, 1996-1998 B.Sc. in Physics from Madras University, Chennai, India, 1993-1996.

Experience

B.S.Abdur Rahman Crescent Institute of Science and Technology, Chennai Associate Professor 13 years, Dhaanish Ahmed College of Engineering, Chennai Assistant Professor and H.O.D 5.8 years, C.Abdul Hakeem College of Engineering Technology, Melvisharam Lecturer 2.2 years,Ā  Aristo Infotech and Enterprises limited Coordinator(Training) 3 years

Additional Qualifications:

Various certifications including Red Hat Certified System Administrator, ISO 9000-2015 certified Internal Auditor, and others.

Awards and Achievements

Received the Excellent Teaching Award presented by the Vice Chancellor in 2019. Acted as a reviewer for major research journals and served on the editorial board of the Journal of Electronic Research Application. Chaired sessions in International Conferences. Received multiple appreciations and awards for outstanding contributions to Physics research.

Research Focus:

Dr. Mohamed Sheik Sirajuddeen M. is a seasoned researcher with a focus on computational materials science. His work primarily revolves around investigating the structural, electronic, and optical properties of various materials using first-principles techniques such as Density Functional Theory (DFT). He has made significant contributions to the study of ternary halide perovskites, quaternary Heusler compounds, and cubic perovskites, exploring their potential for optoelectronic and spintronic applications. Dr. Sirajuddeen’s research also delves into the electronic and magnetic properties of semiconductors and transition metal compounds, shedding light on their potential in emerging technologies.

 

Publications (TOP NOTES)

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Nadia Gammoudi | climate Award | Best Researcher Award

Ms. Nadia Gammoudi, climate Award, Best Researcher Award

PHD at the Institute of Geography and Earth Sciences, Hungary

Nadia is a dedicated PhD student at the Institute of Geography and Earth Sciences, Hungary. With a master’s degree in Climate Change and Adaptation, she excels in geospatial analysis and experimental geomatical analysis. Fluent in Arabic, English, and French, with basic knowledge of Deutsch, Nadia possesses strong communication skills. Her research focuses on original contributions to prestigious journals, demonstrating her passion for expanding knowledge boundaries. With a versatile skill set including programming languages like Python and MATLAB, as well as proficiency in various geological and remote sensing software, Nadia is poised to make significant contributions to the field of geography and earth sciences.

Professional Profiles:

Scopus profile

ResearchGate profile

Education:

PhD student Institute of Geography and Earth Sciences, Hungary, 2018-2024 Research master degree in Climate Change and Adaptation (Tempus) Faculty of Sciences of Gabes, 2014-2015 Professional Master in Geomaterials Valuation Faculty of Sciences of Gabes, 2011-2012 Fundamental License in Natural Sciences and Applications Faculty of Sciences of Gabes, 2009-2010

SKILLS

Office Software: Word, Excel, PowerPoint, LaTeX Programming Languages: Python, MATLAB Geospatial Analysis: Screen3, Marplot-Aloha, Hysplit model, Hydrobal, MODFLOW, SeaDas Geological Design Tools: CorelDraw package, Rockworks Remote Sensing Software Packages: ENVI, ERDAS, ArcGIS, SNAP, Global Mapper Geochemical Laboratory Tools: SEM, XRD

Research Focus:

Smida, Tarki, Gammoudi, and Dassi primarily focus their research on the assessment and management of groundwater resources, particularly in the context of groundwater vulnerability and pollution hazard. Their work involves the integration of Geographic Information Systems (GIS), multicriteria analysis, and artificial neural networks (ANN) to develop robust models for evaluating groundwater quality and susceptibility to contamination. Specifically, their critical review examines the effectiveness of generic and modified DRASTIC models in assessing groundwater vulnerability in the Braga shallow aquifer of Central Tunisia. Their research contributes significantly to enhancing our understanding of hydrogeological processes and facilitating informed decision-making for groundwater protection and management in water-stressed regions.

 

Publications (TOP NOTES)

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Hu Zheng | Granular Matter Award | Best Researcher Award

Prof. Hu Zheng, Granular Matter Award, Best Researcher Award

PHD at Tongji University, Shanghai, China

Hu Zheng, Ph.D., is a Professor of Geotechnical Engineering at Tongji University, Shanghai. With expertise in disordered materials, his research focuses on granular media mechanics, geo-granular stability, and flow behavior. He obtained his Ph.D. from Tongji University, including an exchange program at Duke University. Dr. Zheng has held positions at Duke University and Hohai University, garnering substantial research funding, including grants from NSFC and NSF. He actively mentors graduate, undergraduate, and high school students and teaches courses in engineering geology and environmental engineering. Dr. Zheng’s work contributes significantly to understanding and preventing geo-hazards like landslides and debris flow.

Professional Profiles:

Scopus profile

Orcid profile

GoogleScholar profile

ResearchGate profile

LinkedIn profile

Education:

Ph.D. in Geological Engineering: Tongji University, Shanghai, China, 2008 ā€“ 2013 Thesis Title: Experimental study on deformation characteristics of soil (granular) materials Adviser: Prof. Yu Huang Exchange Program at Duke University, Sept 2011 ā€“ Sept 2012, funded by China Scholarship Council ($20,000 USD)

Professional Positions:

Professor: Department of Geotechnical Engineering, Tongji University, Shanghai, China, 2019 ā€“ Present Research Scientist: Department of Physics, Duke University, Durham, North Carolina, USA, 2018 ā€“ 2019 Postdoctoral Research Associate: Department of Physics, Duke University, Durham, North Carolina, USA, 2015 ā€“ 2018 Adviser: Prof. Robert P. Behringer Assistant Professor: School of Earth Science and Engineering, Hohai University, 2013 ā€“ 2015

Funding Experience:

Principal Investigator (PI): Study on the granular flow of geomaterials in low-pressure environments, NSFC, $81,000 USD, 2023-2027 Macro and Meso trans-scale correlation of geo-granular shear failure, NSFC, $113,000 USD, 2017-2021 Collaborator/Contributor: Self-Assembly in the Macro-World, W.M. Keck Foundation, $1,000,000 USD, 2014-2019 (Second only to the PI within the Duke portion) Structure, Response, and Flow of Dense Granular Materials, NSF, $500,000 USD, 2018-2021 (Second only to the PI)

Teaching Experience:

Supervising & Mentoring: Supervised and mentored graduate, undergraduate, and high school student research since 2013. Supervised graduate and undergraduate students at Duke University and Hohai University.

Research Focus:

Dr. Hu Zheng’s research focuses on the mechanical behavior and stability analysis of granular materials. His work delves into understanding phenomena such as shear jamming, stability analysis of soil slopes, and the effects of intruder friction on granular impact dynamics. Dr. Zheng employs experimental techniques including photoelasticimetry and computational fluid dynamics modeling to investigate the microscopic origins of shear jamming and the behavior of granular materials under various conditions. Through his studies, Dr. Zheng contributes valuable insights into the fundamental properties and behavior of granular matter, advancing our understanding of geotechnical engineering and related fields.

Publications (TOP NOTES)

Sinking in a bed of grains activated by shearing, Cited by 18, Publication date 2018.

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Philip Omollo | Microgravity Award | Best Researcher Award

Dr. Philip Omollo, Microgravity Award, Best Researcher Award

PHD at Kyushu University, Japan

Dr. Philip Omollo, a Kenyan geophysicist, holds a Ph.D. in Engineering from Kyushu University, Japan, specializing in Earth Resources Engineering. With a Master’s in Applied Geophysics from the University of Nairobi, and a Bachelor’s in Physics from Egerton University, he boasts a decade of experience at KenGen. His expertise lies in geophysical data acquisition, monitoring, processing, and interpretation, particularly in geothermal fields. A leader within professional organizations, he’s served as Secretary General and President of the African Society of Kyushu University. Dr. Omollo’s dedication to advancing geophysical exploration and research underscores his commitment to sustainable energy solutions.

Professional Profiles:

Scopus profile

Orcid profile

LinkedIn profile

Education:

Doctor of Philosophy in Engineering, Earth Resources Engineering Kyushu University, Japan, 2023 Master in Applied Geophysics University of Nairobi, Kenya, 2012 Bachelor of Science (Physics Major) Egerton University, Kenya, 2007

Language Skills:

English: Good (Reading, Speaking, Writing) Kiswahili: Good (Reading, Speaking, Writing)

Present Position:

Geophysicist

Professional Experience Record:

2013-2014: CQ Geophysicist, Bureau of Geophysical Prospecting (BGP) Kenya Ltd, Kenya (Project with Tullow Oil) 2017: Geophysicist, Eburru Geothermal Field, KenGen 2019: Geophysicist, Wajir (Project with Earth Water Ltd) 2019: Geophysicist, Barrier Volcanic Complex, Turkana (Project with Olsuswa Energy, BVC Geothermal) 2019: Geophysicist, Akiira Geothermal Field (Project with Akiira Geothermal Ltd)

Research Focus:

Omollo, P. and his collaborators’ research primarily focuses on geothermal exploration and monitoring, with a specific emphasis on the Olkaria geothermal field in Kenya. Through a multidisciplinary approach, their work integrates various geophysical techniques such as gravity monitoring, resistivity imaging, and structural analysis to delineate subsurface structures and reservoir geometry. By employing innovative methods such as time-lapse micro-gravity monitoring and 2D/3D MT data inversion, they aim to enhance understanding of geothermal reservoirs, contributing valuable insights into their characterization, behavior, and potential for sustainable energy extraction. This research is crucial for advancing geothermal energy exploration and utilization, particularly in regions like Olkaria, thereby supporting renewable energy development and environmental sustainability.

Publications (TOP NOTES)

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vahideh hadigheh-rezvan | organic chemistry Award | Women Researcher Award

Dr. vahideh hadigheh-rezvan, organic chemistry Award, Women Researcher Award

Assistant Professor at Islamic Azad University, Iran

Vahideh Hadigheh-Rezvan is an accomplished Assistant Professor of Organic Chemistry at Islamic Azad University Ardabil Branch, Iran. With expertise in computational chemistry, her research focuses on diverse areas including the synthesis and characterization of chemical compounds, molecular structure analysis, and optical property investigations. She has contributed significantly to the field with numerous publications in esteemed journals. Vahideh’s expertise extends to a variety of software tools for computational chemistry, biochemistry, and nanotechnology, showcasing her versatility in modern scientific methodologies. Her dedication to advancing knowledge in organic chemistry underscores her commitment to academic excellence and scientific innovation.

Professional Profiles:

Scopus profile

Orcid profile

Googlescholar profile

ResearchGate profile

LinkedIn profile

Current Academic Position:

Assistant Professor of Organic Chemistry Islamic Azad University Ardabil Branch February 2001 – Present

Research Interests:

Organic Chemistry, Computational Chemistry

Software Skills:

Ab initio, Density Functional Theory (Time Dependent and Independent) for Molecular Clusters and Complexes: MPQC, US-GAMESS, ORCA, NW-Chem, Dalton, Colombus, CPMD, CP2k, OCTOPUS. Density Functional Theory for Periodic Systems: Siesta, Openmx, Quantum-Espresso, VASP. Classical Molecular Dynamics Simulations: NAMD, LAMMPS, DL-POLY, AMBER, MDynamix, Gromacs, GULP. Molecular Docking and Bioinformatics: Autodock, Vina, Dock6.

Research Focus:

Vahideh Hadigheh-Rezvan’s research spans various domains within theoretical and computational chemistry, with a particular focus on elucidating the structural and optical properties of organic compounds. Her work encompasses studies on Schiff bases, phosphines, benzimidazoles, and charge transfer complexes, employing quantum chemical calculations and DFT methods. Notably, she investigates the molecular structure, electronic properties, and spectroscopic characteristics of diverse molecular systems, contributing significantly to the understanding of their behavior and potential applications. Through her comprehensive exploration of these compounds, she advances knowledge in fields such as organic synthesis, material science, and drug analysis, showcasing a broad and impactful research portfolio in theoretical chemistry.

Publications (TOP NOTES)

A review of drug analysis using charge transfer complexes, Publication date: 2023.
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Tahereh Hayeri | Polymers Award | Best Researcher Award

Dr. Tahereh Hayeri, Polymers Award, Best Researcher Award

PHD at Eastern Michigan University, United States

Tahereh (Neda) Hayeri is a highly skilled scientist with over 12 years of experience in the automotive coating industry. Currently pursuing a Ph.D. in Polymers and Coatings Technology at Eastern Michigan University, she specializes in sustainable paint formulations and optimization. With a background in QC chemistry, R&D, and laboratory supervision, she excels in developing eco-friendly coatings and innovative products. Tahereh has presented her research at prestigious conferences and received recognition for her contributions, including Best Paper Awards. She is also a patent pending innovator for her work on LED Nail Gel using Organic-Inorganic Hybrid technology.

Professional Profiles:

Googlescholar profile

ResearchGate profile

LinkedIn profile

 

Educational Background:šŸ“š

Ph.D. in Polymers and Coatings Technology (Expected Graduation: 2024), Eastern Michigan University M.Sc. in Marine Chemistry, Islamic Azad University, Science & Research Branch B.Sc. in Applied Chemistry, Khajeh Nasir Toosi University of Technology (KNTU)

Work History:

Graduate Assistant Eastern Michigan University, MI 8/2021-Present Develop hydrophobic sustainable coatings for Wood, Metal, and Plastic substrates with high BioRenewable content. Develop eco-friendly topcoats harnessing sol-gel reactions. Develop non-acrylate UV-LED Nail Gel based on Bio-based Organic-Inorganic Hybrid technology. Collaborate in research projects on carbon neutrality with mechanical departments at Eastern Michigan University and the University of Michigan.

Awards and Scholarships

Recipient of prestigious awards including Best Awards and Special Scholarships for outstanding contributions to the field.

R&D Senior Scientist

Gamma Thinner, Iran 8/2016-8/2021 Formulated and optimized OEM and Refinish Primers, Basecoats, and Clearcoats. Developed anti-dirt refinish clearcoats and various colors for automotive basecoats.

Patent Pending

Innovative patent pending for LED Nail Gel based on Non-Acrylate Organic-Inorganic Hybrid Bio-Based Binder System.

Research Focus:

Tahereh (Neda) Hayeri’s research focus lies in developing eco-friendly and sustainable coatings with high bio-renewable content, utilizing organic-inorganic hybrid technology. Her work emphasizes the creation of VOCs/HAPs-free solutions for topcoats, addressing environmental concerns while maintaining high performance standards. Specifically, her studies have led to the development of bio-based oligomers tailored for hydrophobic organic-inorganic hybrid clearcoats, offering multiple cure capabilities. Additionally, she has contributed to the advancement of versatile oligomers suitable for thermally, UV-, and ambient-curable organic-inorganic hybrid coatings. Through her innovative research, Hayeri aims to pioneer solutions that reduce environmental impact without compromising on quality or functionality.

Publications (TOP NOTES)

Eco-friendly topcoats: vocs/haps-free solutions with high bio-renewable content, grounded in organic-inorganic hybrid technologymanuscript, Publication date: 2024.
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