Nallamohamed Hajarabeevi | Environmental Chemistry | Best Researcher Award

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Dr. Nallamohamed Hajarabeevi | Environmental Chemistry | Best Researcher Award

Professor | B. S. Abdur Rahman Crescent Institute Of Science And Technology | India

Dr. Nallamohamed Hajarabeevi is a distinguished academic leader, researcher and mentor in the field of Chemistry. She is currently serving as Professor and Head of the Department of Chemistry at B.S. Abdur Rahman Crescent Institute of Science and Technology, Chennai, India. With decades of teaching, research, and administrative experience, she has established herself as an influential educator committed to both academic excellence and societal development. Her career spans from grassroots teaching responsibilities to leadership roles, where she has played a pivotal part in shaping curricula, mentoring students, and contributing to institutional growth. She has also been actively involved in the National Service Scheme (NSS), where her leadership earned numerous awards, including recognition as the Best NSS Programme Officer and her unit being acknowledged as one of the best under Anna University. Beyond academics, she has led impactful community-oriented initiatives such as health camps, plantation drives and self-help group training, reflecting her vision of education as a tool for social transformation. With strong engagement in professional and academic bodies, she has contributed significantly to research, curriculum development, and quality assurance processes, making her a role model for faculty, scholars, and students in the field of chemistry and environmental sciences.

Publication Profile

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Education

Dr. Nallamohamed Hajarabeevi pursued her higher education with a clear dedication to Chemistry, building her academic foundation with a Bachelor’s and Master’s degree in General Chemistry. Her interest in understanding environmental challenges and chemical processes led her to doctoral research in Environmental Chemistry, where she developed expertise in solving pressing issues related to pollution, sustainability, and environmental protection. Her academic journey reflects a consistent pursuit of excellence, blending core knowledge of general chemistry with specialized expertise in environmental studies. This strong educational background has provided her with the skills to connect fundamental concepts of chemistry with real-world applications, especially in the areas of waste management, corrosion studies, and nanochemistry. Her progression from graduate to doctoral studies demonstrates both perseverance and passion for contributing to science and society. The combination of rigorous academic preparation and a commitment to applied research laid the groundwork for her subsequent teaching, research, and leadership roles in higher education. This foundation continues to drive her curiosity, guide her mentorship of young scholars, and inspire her contributions to solving global environmental challenges through the lens of chemical sciences.

Professional Experience

Dr. Nallamohamed Hajarabeevi has an extensive professional career in higher education marked by continuous growth in teaching, research, and leadership responsibilities. She began as a lecturer in Chemistry, where she developed a strong foundation in academic instruction and student engagement. Over time, her dedication and expertise earned her progressive appointments as senior lecturer, assistant professor, and associate professor, each role providing opportunities to expand her contributions in curriculum design, research mentoring, and departmental development. Her appointment as professor further solidified her academic standing, allowing her to guide doctoral research, lead projects, and represent her institution in professional and academic forums. Currently, she serves as Professor and Head of the Department of Chemistry at B.S. Abdur Rahman Crescent Institute of Science and Technology, where she oversees academic planning, faculty mentoring, and research initiatives. Alongside her academic journey, Dr. Nallamohamed Hajarabeevi has held key leadership positions in the National Service Scheme, serving as programme officer and later as programme coordinator. She also contributed significantly to institutional administration as ISO coordinator, admissions officer, and timetable coordinator. Through these diverse roles, she has demonstrated a rare combination of academic expertise, organizational leadership, and community service, making her a respected figure in both education and social outreach.

Research Interest

Dr. Nallamohamed Hajarabeevi’s research interests lie in interdisciplinary areas of Chemistry with a strong focus on solving environmental and energy-related challenges. She has worked extensively in Environmental Chemistry, investigating pollution control, waste management, and sustainable resource use. Corrosion studies form another key area of her expertise, where she examines material degradation and explores advanced methods to enhance durability and safety in industrial applications. Her interest in Nanochemistry has led her to explore nanoscale materials with potential applications in green chemistry, catalysis, and environmental protection. Additionally, she is engaged in research on supercapacitors and batteries, reflecting her commitment to developing sustainable energy storage systems aligned with global energy transition goals. These areas of study reflect her vision of chemistry as a discipline with both academic significance and practical utility, addressing critical global concerns such as sustainability, clean energy, and environmental protection. Through her ongoing research, she also mentors doctoral and postgraduate scholars, ensuring that her interests extend beyond individual contributions to cultivating the next generation of researchers. Her focus on both applied and fundamental aspects of Chemistry continues to enrich the field and open new pathways for innovation.

Research Skills

Dr. Nallamohamed Hajarabeevi possesses extensive research skills that span across multiple domains of chemistry, with a strong emphasis on environmental chemistry, corrosion studies, nanochemistry, and electrochemical energy storage materials. Her doctoral research in environmental chemistry laid a strong foundation for her expertise in pollution monitoring, waste management, and sustainable practices. Over the years, she has broadened her research portfolio to include corrosion inhibition studies, focusing on material protection and durability, as well as advanced nanomaterials with applications in supercapacitors and batteries. She has guided postgraduate and doctoral scholars, nurturing research aptitude and equipping them with analytical, experimental, and scientific writing skills. Under her supervision, several M.Sc. and M.E. projects have been successfully completed, while four Ph.D. scholars are currently pursuing research under her guidance. Her mentorship has resulted in student achievements, including best paper and presentation awards at reputed conferences. Dr. Nallamohamed Hajarabeevi is adept at curriculum-linked research development, laboratory experimentation, and interdisciplinary collaborations. She has also kept pace with modern research methodologies by attending international workshops, faculty development programmes, and webinars on green chemistry and sustainable design. Her ability to combine theoretical knowledge with practical experimentation reflects her commitment to addressing contemporary scientific challenges through innovative and sustainable solutions.

Awards and Honors

Dr. Nallamohamed Hajarabeevi has been consistently recognized for her distinguished service in teaching, research, and social outreach. She received the Silver Jubilee Celebration Award for completing more than fifteen years of dedicated service to the Crescent Institution, reflecting her long-standing commitment to academic excellence. Her outstanding contributions to the National Service Scheme (NSS) have brought several prestigious accolades, including the Best NSS Programme Officer Award from Anna University and the Best NSS Unit Award for the institution on multiple occasions. Under her guidance, NSS student volunteers excelled at both university and national levels, with six students receiving the Best NSS Volunteer Award, showcasing her impactful mentorship and leadership in community service. Her role in guiding students towards research excellence is also noteworthy, with her mentees winning the Best Paper and Presentation Award at a National Workshop jointly organized by NSS–Anna University and IIT Madras. Beyond academics and social work, she has displayed her versatility by excelling in sports, securing the Runner-Up position in Ball Badminton for two consecutive years at YMCA College of Physical Education. These honors highlight her multidimensional contributions to academia, research, student development, and community engagement.

Author Metrics

  • Total Citations: 312

  • h-index: 7

  • i10-index: 6

Publications Top Notes

1. Green corrosion inhibitors: an overview
Citations: 119 | Year: 2011

2. Facilitated transport of cationic dyes through a supported liquid membrane with D2EHPA as carrier
Citations: 50 | Year: 2009

3. Green synthesis and characterization of zinc nanoparticles using Andrographis paniculata leaf extract
Citations: 36 | Year: 2016

4. Synthesis and characterization of copper nanoparticles using leaf extract of Andrographis paniculata and their antimicrobial activities
Citations: 31 | Year: 2016

5. Inhibitive action of malachite green–Zn²⁺ system
Citations: 26 | Year: 2012

Conclusion

Dr. Nallamohamed Hajarabeevi’s career exemplifies a rare blend of academic leadership, research excellence, and societal engagement. With a strong foundation in Environmental Chemistry, she has built a distinguished academic journey spanning teaching, research, administration, and community service. As Professor and Head of the Department of Chemistry at B.S. Abdur Rahman Crescent Institute of Science and Technology, she has played a pivotal role in shaping curricula, mentoring young scholars, and driving research in emerging areas such as nanochemistry, corrosion studies, and energy storage materials.

Her contributions extend beyond classrooms and laboratories, as reflected in her active involvement in the National Service Scheme, where she inspired students to blend social responsibility with academic growth. The recognition she has received at institutional, university, and state levels underscores her impactful leadership. Equally, her ability to balance professional commitments with co-curricular achievements in sports and staff activities highlights her versatile personality. Through her dedication to research, innovation and societal development, Dr. Nallamohamed Hajarabeevi continues to inspire colleagues, students and communities alike. Her journey reflects a holistic vision of education—where teaching, research, and service converge to create meaningful impact. She stands as a role model for academic excellence, ethical leadership, and lifelong commitment to knowledge and social betterment.

Elena Allegritti | Sustainable Materials | Best Researcher Award

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Dr. Elena Allegritti | Sustainable Materials | Best Researcher Award

Research and Development Project Manager | University of L’Aquila | Italy

Dr. Elena Allegritti is a dedicated researcher and project manager specializing in the design and development of innovative materials and biomedical systems. Her academic and professional journey reflects a strong focus on lipid-based carriers, drug delivery platforms and multifunctional formulations for both industrial and healthcare applications. With a background spanning chemistry, materials science, and biomedicine, she has cultivated expertise in interdisciplinary projects that integrate nanotechnology, materials engineering, and pharmaceutical sciences. Throughout her career, Dr. Elena Allegritti has combined rigorous academic training with hands-on laboratory research, working on advanced systems such as liposomes, micelles, magnetic carriers, and lipid mesophases. Her experiences extend beyond Italy through international collaborations in Switzerland and Spain, where she contributed to projects on targeted therapies and controlled release formulations. She has also gained industrial experience in biotechnology, where she has taken on leadership responsibilities in research management. Beyond technical expertise, Dr. Elena Allegritti demonstrates strong organizational and communication skills, successfully bridging the gap between scientific innovation and practical application. Her work reflects a consistent drive to address pressing biomedical and industrial challenges, positioning her as an emerging leader in applied chemistry and life sciences.

Publication Profile

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Education

Dr. Elena Allegritti’s educational foundation reflects her strong commitment to chemistry and its applications in both industry and healthcare. She began her academic journey in chemistry and materials science, developing expertise in the synthesis of surfactants and lipid-based sensors. Building on this foundation, she advanced to graduate-level studies in chemical sciences, where she focused her thesis on liposome-based drug delivery systems for Parkinson’s disease. This work highlighted her early interest in neurodegenerative disorders and innovative therapeutic approaches. She then pursued doctoral studies in physical and chemical sciences, specializing in lipid-based carriers such as liposomes, micelles, magnetic liposomes, and lipid mesophases. Her research explored the dual potential of these systems for biomedical and industrial use, combining fundamental chemistry with applied innovation. During her doctoral training, she also participated in international exchanges that enriched her perspective on materials science and pharmaceutical technologies. She further complemented her academic preparation with professional qualifications, including the official habilitation as a chemist and certification for teaching chemistry at middle and high school levels. This comprehensive academic path reflects her interdisciplinary strengths and her ability to translate fundamental chemical knowledge into practical biomedical and industrial applications.

Professional Experience

Dr. Allegritti has cultivated diverse professional experiences that combine academic research with industrial project management. In biotechnology, she serves as a research and development project manager, overseeing activities related to the design and advancement of cosmetic formulations, supplements, and medical devices aimed at preventing and treating infections. This role has allowed her to integrate her scientific expertise with managerial skills, guiding projects from concept to development. In academia, she has worked as a postgraduate research scholar, contributing to material science projects involving the preparation and characterization of novel systems designed for conservation and environmental applications. During her doctoral studies, she carried out research on advanced lipid-based systems for both biomedical and industrial use, collaborating closely with academic mentors and interdisciplinary teams. Internationally, she enhanced her profile as a visiting researcher in Switzerland, where she explored lipid mesophase-based beads for drug delivery, and in Spain, where she contributed to liposomal formulations for neurological therapies. Each of these roles reflects her versatility and adaptability, spanning laboratory work, project coordination, and cross-border collaborations. Collectively, her professional experiences demonstrate her ability to navigate both research-focused and applied environments, balancing scientific rigor with innovation-driven leadership.

Research Interest

Dr. Elena Allegritti’s research interests lie at the intersection of chemistry, nanotechnology, and biomedical engineering, with a particular focus on lipid-based systems and their versatile applications. She is deeply engaged in the study of liposomes, micelles, magnetic liposomes and lipid mesophases as multifunctional carriers for drug delivery and therapeutic interventions. These systems hold promise for the targeted and sustained release of active molecules, particularly in addressing conditions such as neurodegenerative disorders, infections, and cancer. Beyond biomedical contexts, her research extends to the use of lipid-based and surfactant systems in industrial and conservation applications, including the development of new materials for surface treatments and environmental restoration. She is also interested in the translation of academic discoveries into practical technologies, with a focus on developing medical devices, supplements, and cosmetic formulations that leverage biocompatible materials. Another key area of her interest is the integration of interdisciplinary approaches, combining materials chemistry with pharmaceutical sciences, biotechnology, and nanomedicine. Through both independent and collaborative projects, Dr. Elena Allegritti seeks to address global health challenges and industrial needs by designing innovative, sustainable, and efficient material-based solutions that bridge fundamental science with applied technology.

Research Skills

Dr. Elena Allegritti possesses a broad range of research skills that reflect her multidisciplinary training and international experiences. Her expertise includes the design, synthesis, and characterization of lipid-based systems such as liposomes, micelles and mesophases, which she applies in both biomedical and industrial contexts. She is proficient in advanced laboratory techniques for material preparation, formulation development, and physicochemical characterization, including microscopy, spectroscopy, and analytical chemistry methods. Her research also involves the use of magnetic and responsive nanocarriers for targeted delivery, demonstrating her ability to develop innovative platforms for sustained and controlled release. She has gained experience in surface treatments and conservation materials, applying chemical principles to the protection and restoration of cultural heritage. International research collaborations have strengthened her adaptability to different laboratory environments and expanded her technical repertoire. In addition, her role in biotechnology has developed her project management skills, including planning, supervising, and coordinating research activities across teams. She combines hands-on laboratory expertise with scientific writing, presentation, and communication skills, enabling her to contribute effectively to academic publications, industrial reports, and collaborative projects. These skills underscore her versatility as a scientist capable of both discovery-driven and application-oriented research.

Awards and Honors

Dr. Elena Allegritti’s academic and professional journey has been recognized through distinctions and achievements that highlight her excellence in chemistry and research. She graduated with top honors in both her bachelor’s and master’s degrees, earning the highest academic distinction for her performance and thesis research. Her doctoral training further strengthened her academic profile, as she was selected for competitive international research exchanges in Switzerland and Spain, where she contributed to high-level projects in drug delivery and nanomedicine. She has also successfully achieved professional habilitation as a chemist, reflecting her recognized competence and readiness for professional practice in the field. In addition, she earned certification for teaching chemistry at the secondary level, showcasing her versatility in both research and education. Throughout her career, her ability to balance academic research with industrial applications has been a consistent source of recognition. While still at an early stage in her career, these honors reflect a trajectory of excellence, dedication, and impact across academic, industrial, and international contexts. They also underscore her role as a promising scientist whose achievements continue to position her as an emerging leader in chemical and biomedical innovation.

Author Metrics

  • Publications: 8

  • Documents Indexed: 7

  • Total Citations: 32+

  • Citations by Documents: 30

  • h-index: 3

Publications Top Notes

1. Exploring Solid Magnetic Liposomes for Organic Pollutant Removal from Wastewater: The Role of Lipid Composition
Year: 2025
Citations: 2

2. Unlocking new dimensions in long-acting injectables using lipid mesophase-based beads
Year: 2024
Citations: 2

3. Novel liposomal formulations for protection and delivery of Levodopa: Structure-properties correlation
Year: 2023
Citations: 11

4. Organocatalytic Synthesis of γ-Amino Acid Precursors via Masked Acetaldehyde under Micellar Catalysis
Year: 2023
Citations: 2

5. Influence of Lipid Composition on Physicochemical and Antibacterial Properties of Vancomycin-Loaded Nanoscale Liposomes
Year: 2024
Citations: 4

Conclusion

Dr. Elena Allegritti is a highly motivated chemist and research professional whose career integrates academic achievement, international collaboration and industrial application. Her expertise in lipid-based systems and multifunctional carriers places her at the forefront of research in drug delivery, nanomedicine and advanced materials. She combines this scientific knowledge with strong project management skills, demonstrated in her current leadership role within the biotechnology sector, where she oversees the development of medical devices, cosmetic products, and supplements. Her educational path, marked by distinction at every stage, reflects both depth and breadth, encompassing chemistry, materials science, and applied biomedical research. International experiences in Switzerland and Spain have expanded her perspective and strengthened her collaborative approach, while her qualifications in professional practice and teaching further showcase her versatility. Looking forward, Dr. Elena Allegritti is well-positioned to continue contributing to both scientific discovery and practical innovation. Her commitment to advancing materials and formulations that address health and industrial challenges ensures that her work will remain impactful, bridging the gap between fundamental science and societal needs. She stands as a dynamic scientist prepared to shape future directions in applied chemistry and biomedical engineering.

Azam Seifi | Chemistry | Best Researcher Award

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Dr. Azam Seifi | Chemistry | Best Researcher Award

Postdoctoral Researcher at Istanbul Technical University, Turkey.

Dr. Azam Seifi is an accomplished researcher in the field of applied chemistry, with expertise in nanomaterials, photocatalysis, and environmental remediation technologies. With a strong academic background and over a decade of teaching and research experience, she has developed a comprehensive understanding of material synthesis, advanced oxidation processes, and catalyst development for sustainable energy and water treatment applications. Dr. Seifi completed her Ph.D. at the University of Tabriz, Iran, where she focused on synthesizing transparent multifunctional titanium-based photocatalytic films for improving solar cell efficiency. Her postdoctoral research has taken her to prestigious institutions in Türkiye, including Istanbul Technical University and Gebze Technical University, where she is engaged in cutting-edge projects involving hydrogen generation and photocatalytic degradation of pollutants. In addition to her scientific research, Dr. Seifi is a certified TEFL/TESOL instructor and has taught English and chemistry in several renowned institutions. Fluent in Azerbaijani, Persian, English, and Turkish, she brings a multilingual and multicultural dimension to her academic contributions. Her work bridges chemistry and environmental engineering, aiming to address global challenges through innovative, eco-friendly technologies. Dr. Seifi’s achievements are supported by competitive scholarships such as Erasmus+ and Mevlana, reflecting her academic excellence and international recognition.

📝Publication Profile

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🎓Education

Dr. Seifi earned her Ph.D. in Applied Chemistry from the University of Tabriz, Iran (2015–2023). Her doctoral dissertation focused on the synthesis of transparent multifunctional titanium-based photocatalytic films, aimed at enhancing solar cell coatings. The research was conducted under the supervision of Prof. Dariush Salari and Prof. Aligholi Niaei, with advisory support from Prof. Alireza Khataee. She previously completed her M.Sc. in Applied Chemistry (2009–2011) at the same university, where she worked on the removal of nitrate and nitrite from water using activated carbon fiber and nano zero-valent iron composites. Her B.Sc., also in Applied Chemistry, was awarded by the University of Tabriz in 2008. Throughout her academic studies, Dr. Seifi has demonstrated strong research potential, earning top student status and securing competitive rankings in national entrance exams. Her formal education laid a solid foundation in chemical synthesis, environmental chemistry, and advanced materials, preparing her for diverse research opportunities in nanotechnology, photocatalysis, and renewable energy. Her academic journey reflects consistent excellence in applied sciences, with an emphasis on sustainability and environmental impact.

💼Professional Experience

Dr. Seifi’s professional journey encompasses academic teaching, laboratory work, and postdoctoral research. She is currently a postdoctoral researcher (2024–2026) in the Department of Energy at Istanbul Technical University, working on eco-friendly photoelectrochemical hydrogen generation devices. She also participates in projects related to CO₂ conversion, catalytic water treatment, and photoelectrocatalytic degradation of pharmaceuticals. From 2023 to 2024, she served as a postdoctoral researcher at Gebze Technical University, where she explored BODIPY-based porous organic cage structures for hydrogen production. Earlier, she worked as a laboratory expert at Charkheshgar Company in Tabriz (2014–2015) and served as a teaching assistant in water and wastewater treatment and oil technology laboratories at the University of Tabriz (2016–2019). In parallel, she has taught English and chemistry in several institutions, including the American Life Institute in Türkiye and the Iran Language Institute. Her diverse experience demonstrates a blend of practical, research, and pedagogical skills, making her an effective scientist and educator. With extensive international collaboration and interdisciplinary work, Dr. Seifi’s professional background showcases her ability to integrate theoretical knowledge with real-world applications in energy and environmental fields.

🔬Research Interest

Dr. Azam Seifi’s research interests focus on nanostructured materials, photocatalysis, environmental remediation, and clean energy technologies. She specializes in the synthesis, doping, and characterization of multifunctional nanomaterials, particularly thin films, layered double hydroxides (LDHs), perovskite, and spinel catalysts. Her work explores photocatalytic degradation of pollutants, including pharmaceuticals, dyes, and pesticides, as well as catalytic removal of volatile organic compounds and air pollutants, such as CO. A key area of interest is the development of solar-active coatings and photoelectrochemical hydrogen generation systems using carbon textile composites and hybrid nanocatalysts. Dr. Seifi is also engaged in research on advanced oxidation processes (AOPs) for water and wastewater treatment, including Fenton, photo-Fenton, and Fenton-like reactions. Her research aims to create sustainable, scalable, and energy-efficient solutions for environmental challenges. Additionally, she has a keen interest in applying green chemistry principles and multifunctional coatings for renewable energy systems. With a multidisciplinary approach, her research contributes to the interface of materials science, chemistry, and environmental engineering.

🧠Research Skills

Dr. Seifi possesses advanced research skills in nanomaterial synthesis and characterization, catalytic process design, and environmental chemistry. She is highly proficient in synthesizing layered double hydroxides, perovskites, spinels, and porous organic frameworks through sol-gel and hydrothermal methods. Her expertise includes doping and manipulating nanomaterials to enhance their catalytic and photocatalytic efficiency for pollutant degradation and energy conversion. Dr. Seifi has extensive hands-on experience with analytical and characterization techniques such as SEM, XRD, XPS, AFM, and contact angle (CA) analysis. She has applied these techniques in developing superhydrophilic self-cleaning coatings, photoelectrodes, and nanocomposite adsorbents. Her laboratory skills encompass both experimental design and process optimization for pollutant removal via adsorption, photocatalysis, and advanced oxidation. She has conducted numerous studies on photocatalytic and photoelectrocatalytic degradation of organic compounds in water systems. Furthermore, Dr. Seifi is adept in interdisciplinary collaboration and project execution, often bridging the gap between academic research and applied industrial technologies. Her strong command of technical processes and laboratory instrumentation supports her ability to conduct high-impact, real-world-oriented research in environmental and energy chemistry.

🏆Awards and Honors

Dr. Azam Seifi has been recognized for her academic and research excellence with several prestigious honors. She was awarded the Erasmus+ Scholarship in 2020, enabling her to pursue advanced research and foster international collaboration in Türkiye. She also received the Mevlana Scholarship in 2019, reflecting her outstanding academic performance and potential for cross-border research. During her doctoral studies, Dr. Seifi was recognized as the Top Ph.D. student in Applied Chemistry in 2015 at the University of Tabriz. Moreover, she ranked 4th among all candidates in the highly competitive national Ph.D. entrance examination in Iran, demonstrating her academic rigor and commitment. Her scholarship awards reflect not only academic merit but also the trust of international funding bodies in her research capabilities. Dr. Seifi’s honors underscore her dedication to scientific advancement, excellence in interdisciplinary research, and contribution to the fields of environmental sustainability and renewable energy. These accolades have significantly supported her participation in multinational projects and postdoctoral positions at leading institutions.

📈Author Metrics

  • Total Citations: 121

  • h-index: 6

  • i10-index: 4

These metrics reflect Dr. Seifi’s growing academic impact in the fields of photocatalysis, environmental remediation, and applied chemistry. Her research contributions have been cited across multidisciplinary journals, demonstrating both the relevance and scientific influence of her work.

📌Publications Top Notes

1. Bamboo-derived adsorbents for environmental remediation: A review of recent progress

Authors: D. Kalderis, A. Seifi, T.K. Trang, T. Tsubota, I. Anastopoulos, I. Manariotis, et al.
Journal: Environmental Research, Volume 224, Article 115533
Year: 2023
Citations: 47

2. Enhanced photocatalytic activity of highly transparent superhydrophilic doped TiO₂ thin films for improving the self-cleaning property of solar panel covers

Authors: A. Seifi, D. Salari, A. Khataee, B. Çoşut, L.Ç. Arslan, A. Niaei
Journal: Ceramics International, Volume 49, Issue 2, Pages 1678–1689
Year: 2023
Citations: 32

3. Catalytic activation of persulfate by 3D Cd(II) coordination polymers based on a flexible cyclotriphosphazene-functionalized ligand

Authors: A.O. Erkovan, A. Seifi, B.T. Aksoy, A. Khataee, Y. Zorlu, B. Çoşut
Journal: Polyhedron, Volume 241, Article 116472
Year: 2023
Citations: 15

4. Catalytic activity of Zn(II) coordination polymer based on a cyclotriphosphazene-functionalized ligand for removal of organic dyes

Authors: A.O. Erkovan, A. Seifi, B.T. Aksoy, Y. Zorlu, A. Khataee, B. Çoşut
Journal: Catalysts, Volume 13, Issue 4, Article 756
Year: 2023
Citations: 14

5. The impact of operational factors on degradation of formaldehyde as a human carcinogen using Ag₃PO₄/TiO₂ photocatalyst

Authors: A. Hadi, A. Niaei, A. Seifi, Y. Rasoulzadeh
Journal: Health Promotion Perspectives, Volume 13, Issue 1, Pages 47
Year: 2023
Citations: 6

🧾Conclusion

Dr. Azam Seifi is a dynamic and forward-thinking researcher whose work lies at the intersection of applied chemistry, nanotechnology, and environmental sustainability. With a strong foundation in photocatalysis, water treatment, and energy conversion, she brings deep scientific insight into developing advanced materials for practical applications. Her academic training, combined with substantial research and teaching experience in both Iran and Türkiye, has equipped her with a well-rounded and global perspective. Dr. Seifi’s ability to integrate laboratory research with real-world challenges—such as clean water access, pollution control, and renewable energy—demonstrates her dedication to impactful science. Her multilingual fluency, cross-cultural teaching experience, and international research collaborations enhance her effectiveness as a scientific communicator and collaborator. As she continues her postdoctoral research, Dr. Seifi remains committed to pioneering eco-friendly solutions for global energy and environmental challenges. Her contributions are not only relevant to academia but also vital to industry and policy development in sustainable technologies.

Junfeng Wang | Chemical Engineering | Best Researcher Award

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Prof. Dr. Junfeng Wang | Chemical Engineering | Best Researcher Award

Professor at Institute of Process Engineering, Chinese Academy of Sciences, China.

Dr. Junfeng Wang is a Professor at the Institute of Process Engineering, Chinese Academy of Sciences (CAS), Beijing. Since 2005, she has led pioneering research in wastewater treatment, ionic liquid recovery, and lithium separation from salt lakes. She has served as the Principal Investigator for 7 projects funded by the National Natural Science Foundation of China (NSFC) and over 10 other national and industrial projects.

Her work integrates membrane science, nanofiltration, selective electrodialysis, ion-exchange strategies, and ionic liquid-based systems to address critical environmental and resource recovery challenges. She has authored over 60 peer-reviewed SCI-indexed publications in high-impact journals such as Chemical Engineering Journal, AIChE Journal, Green Chemistry, Desalination, and Separation and Purification Technology. She also holds 11 authorized patents, with three successfully transferred to industrial applications.

Publication Profile

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Educational Details

Based on the available information, Prof. Dr. Junfeng Wang is affiliated with the Institute of Process Engineering, Chinese Academy of Sciences (CAS), Beijing. However, specific details regarding her educational background are not publicly disclosed in the provided sources. Given her extensive research and professional experience, it is likely that she holds advanced degrees in chemical or environmental engineering.

Professional Experience

  • Project Researcher, Institute of Process Engineering, Chinese Academy of Sciences (CAS), Beijing
    October 2024 – Present
    Currently serving as a Project Researcher, leading advanced research initiatives in chemical engineering, with a focus on green separation technologies and thermodynamic modeling.

  • Associate Researcher, Institute of Process Engineering, CAS
    July 2008 – October 2024
    Engaged in extensive research on complex systems involving organic components, developing thermodynamic models and effective separation materials. Contributed to the establishment of five pilot or industrial demonstration devices. Published over 60 papers in top chemical engineering journals and secured 11 authorized invention patents, with three implemented in industrial applications. UCAS People

  • Assistant Engineer, Heilongjiang University
    June 2004 – August 2005
    Worked on engineering projects, gaining practical experience in the application of chemical engineering principles.UCAS People

  • Engineer, Qilu Petrochemical Jinmai Computer Company, Zibo, Shandong
    July 1998 – August 2000
    Involved in engineering roles, contributing to projects related to petrochemical processes and computer applications in engineering.UCAS People

Prof. Wang has a distinguished career in chemical engineering, focusing on green separation technologies, thermodynamic modeling, and the development of effective separation materials. Her work has led to significant advancements in the field, including the establishment of pilot and industrial demonstration devices, numerous publications in esteemed journals, and multiple patents with real-world industrial applications.

Research Interest

  • Thermodynamic Modeling of Complex Systems:
    Developing predictive models to describe phase equilibria and molecular interactions in systems containing organic compounds, polymers, ionic liquids, and biomolecules.

  • Green Separation Materials and Processes:
    Design and application of environmentally friendly solvents and materials—such as ionic liquids and deep eutectic solvents—for selective separation and purification.

  • Separation of Organic Compounds:
    Exploring efficient and energy-saving techniques for the separation of hydrocarbons, alcohols, esters, and biobased chemicals.

  • Microstructure–Performance Relationships:
    Investigating how molecular structure and micro-level interactions influence macroscopic thermodynamic and transport properties.

  • Process Intensification and Industrial Applications:
    Translating research outcomes into practical separation processes and scaling up to pilot and industrial demonstration units.

Author Metrics

  • Total Citations: Approximately 2,499 citations

  • h-index: 19

  • i10-index: 24

  • Number of Publications: 28 publications (from 2020 onwards)

  • Top Journal: His work is regularly published in high-impact journals such as Separation and Purification Technology, Journal of Chemical & Engineering Data, Desalination, Green Chemistry, Membrane Science International, and Chemical Engineering Journal.

Top Noted Publication

1. Xu, H., Lan, D., Wang, J.*, et al. (2025).**
Nanofiltration membranes for Mg²⁺/Li⁺ separation: Separation mechanisms, mass transfer models and current research advances.
Separation and Purification Technology, 370, 133206.
https://doi.org/10.1016/j.seppur.2024.133206

Comprehensive review in a leading separation science journal. Cutting-edge relevance to lithium recovery.

2. Chen, S., Dong, Y., Sun, J., Gu, P., Wang, J.*, Zhang, S. (2023).**
Ionic liquids membranes for liquid separation: Status and challenges.
Green Chemistry, 25(15), 5813–5835.
https://doi.org/10.1039/D3GC01584K

High-impact journal (IF ~11); critical overview of ionic liquid membranes, positioning future research directions.

3. Dong, Y., Bai, J., Xiao, L., Chen, S., Bai, L., Cheng, H., Shan, L., Wang, J.*, Nie, Y. (2024).**
Polyethyleneimine-Templated ZIF-8 Nanoparticles Impart the Nanofiltration Membrane with High Mg²⁺/Li⁺ Separation Performance.
ChemSusChem, 17, e202402264.
https://doi.org/10.1002/cssc.202402264

Innovative nanomaterials strategy in a reputable sustainable chemistry journal (IF ~9).

4. Zhang, J., Sun, J., Liu, Y., Wang, J.*, Nie, Y.* (2024).**
Transforming coking wastewater: Breakthrough COD reduction with Ti/RuO₂–IrO₂ anode electrocatalysis.
Journal of Water Process Engineering, 65, 105800.
https://doi.org/10.1016/j.jwpe.2024.105800

Applied breakthrough in industrial wastewater treatment using advanced electrocatalysis.

5. Wang, J.*, Yang, S., Zhang, X., Wang, Y., Wang, D., Li, W., Ashraf, M. A., Park, A. H. A., Li, X.* (2020).**
Extraction mechanism of lithium from the alkali solution with diketonate-based ionic liquid extractants.
Energy & Fuels, 34(9), 11581–11589.
https://doi.org/10.1021/acs.energyfuels.0c02341

Mechanistic study in a well-ranked energy journal; international collaboration; strong implications for lithium recovery.

Conclusion

Prof. Dr. Junfeng Wang is undoubtedly a deserving candidate for the Best Researcher Award. Her extensive research, coupled with her leadership in advancing green separation technologies and environmental engineering, has made significant contributions to both academia and industry. Her ability to translate fundamental research into practical applications, as evidenced by her successful industrial patents, is commendable. While there are areas for improvement, particularly in terms of expanding collaborations and focusing on commercialization, Prof. Wang’s accomplishments so far reflect her as a leader in the field with a promising future ahead. Her work will continue to have a lasting impact on sustainable engineering and environmental technologies, making her an outstanding candidate for this prestigious award.