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Hassana Mahfoud, Engineering, Best Researcher Award

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Prof. Dr Hassana Mahfoud: Professor and researcher at ENSAM Moulay Ismail University Meknes Morocco, Morocco

Prof Dr. Hassana Mahfoud is a university lecturer and researcher from Morocco, specializing in industrial engineering, maintenance systems, and quality management. With a diverse background spanning academia, research, and industry, she has developed expertise in smart maintenance, sustainability, and digital transformation. Over the past decade, she has contributed to numerous academic programs across Morocco and supervised a wide range of student projects, from undergraduate to doctoral levels. Her work focuses on improving performance and reliability in both healthcare and industrial sectors through innovative engineering methods and data-driven decision-making.

Online Profiles

Google Scholar Profile

As of 2025, Dr. Hassana Mahfoud’s research has been cited 169 times in total, with 119 citations since 2020. She has an h-index of 5 and an i10-index of 4, reflecting a growing impact in the fields of maintenance engineering, healthcare systems optimization, and industrial sustainability.

Education

Dr. Mahfoud earned her PhD in Industrial Engineering from the Faculty of Science and Technology in Fez in 2017. Her doctoral research focused on maintenance optimization in the healthcare domain, blending reliability modeling and decision analysis. She previously completed her engineering degree from the National School of Applied Sciences, Fez, in 2011, specializing in industrial systems. Her academic journey began with a Baccalaureate in Science Mathematics from Moulay Driss High School in 2006, laying the foundation for her analytical and systems-based thinking.

Research Focus

Her current research lies at the intersection of predictive maintenance, smart technologies, and sustainable engineering practices. She investigates how Industry 4.0 tools—such as AI, IoT, and data analytics—can be applied to improve maintenance strategies, especially in the healthcare and energy sectors. Additionally, she explores the role of education in shaping resilient industrial actors by rethinking curricula, integrating digital tools, and promoting project-based learning approaches. Circular economy concepts and eco-responsible maintenance systems are also key pillars in her work.

Experience

Dr. Mahfoud has over 12 years of academic and industry experience. Since 2022, she has been a full-time lecturer at ENSAM Meknes (Moulay Ismail University), teaching core subjects like Production Systems, Statistical Process Control, and Maintenance Engineering. Before that, she served as an assistant professor at Cadi Ayyad University (2019–2022) and a permanent professor at ESISMP Casablanca (2017–2019). Her early career included R&D roles in biomedical maintenance at FST Fez and industrial leadership at SBS Porcher in Kenitra, where she oversaw technical operations and industrial project management.

Research Timeline

Her early research (2014–2016) focused on reliability models and maintenance strategies for critical healthcare equipment, contributing to the development of delay time models and risk prioritization tools. Between 2016 and 2020, she advanced hybrid decision-making frameworks and explored cost-effective healthcare maintenance models. From 2020 onwards, her focus shifted toward predictive and sustainable maintenance 4.0, with applications in solar energy plants and circular supply chains. More recently, she has been working on smart systems for maintenance, digital prototyping, and AI-driven educational tools.

Awards & Honors

Dr. Mahfoud has been recognized for her academic contributions and peer-review excellence. She received a Certificate of Excellence in Reviewing from the Journal of Advances in Mathematics and Computer Science. She has also served as a scientific committee member for major conferences, including AI2SD, FSDM, and ICSIEM. She completed a certified training program in University Pedagogy at CFCC Marrakech, enhancing her competencies in digital teaching, assessment, and educational innovation. Her work in Fab Lab innovation and 3D printing has been supported by the AUF as part of Morocco’s digital transformation efforts in education.

Top-Noted Publication

One of her most impactful publications is the 2018 article titled “Dependability-based maintenance optimization in healthcare domain”, published in the Journal of Quality in Maintenance Engineering (Emerald Publishing). The paper offers a dependability-driven framework for optimizing maintenance operations in medical settings, integrating reliability modeling and cost analysis. This work has been widely cited and serves as a foundation for subsequent research in evidence-based, smart healthcare maintenance. Other notable publications include contributions to Springer’s Lecture Notes series and IEEE conference proceedings on predictive maintenance and circular healthcare supply chains.

  • Real-Time Predictive Maintenance-Based Process Parameters: Towards an Industrial Sustainability Improvement
    H. Mahfoud, O. Moutaoukil, M. Toum Benchekroun, A. Latif
    International Conference on Advanced Intelligent Systems for Sustainable Development (AI2SD), 2023 — 4 citations

  • What can we learn about educational project management in times of covid-19?
    H. Mahfoud
    International Journal of Educational Research Review, Vol. 6(2), 2021, pp. 75-81 — 3 citations

  • Etude des stratégies de maintenance biomédicale: Situation actuelle et perspectives
    H. Mahfoud, A. El Barkany, A. El Biyaali
    Xème Conférence Internationale: Conception et Production Intégrées, 2015 — 3 citations

  • Optimisation des stratégies de maintenance d’un système complexe – Analyse bibliographique
    H. Mahfoud
    Congrès International du Génie Industriel et Management des Systèmes (CIGIMS), 2015 — 3 citations

  • A novel conceptual framework for predictive maintenance of medical devices in a circular healthcare supply chain
    O. Moutaoukil, H. Mahfoud, I. Bouhaddou
    International Conference on Control, Automation and Diagnosis (ICCAD), 2024 — 2 citations

Andréa Jorge Silva, Engineering, Best Researcher Award

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Doctorate Andréa Jorge Silva: Medical Anesthesiologist and Head of Medical Care Division, Antônio Pedro University Hospital – Federal Fluminense University – Faculty of Medicine, Brazil

Dr. Andréa Jorge Silva is a highly experienced Brazilian anesthesiologist and academic, currently serving as the Head of the Medical Care Division at Antonio Pedro University Hospital, part of the Federal Fluminense University. With over 30 years in clinical practice, she has consistently integrated her medical expertise with research and innovation. Her work focuses on improving patient care, especially in the field of airway management and anesthesia safety. Dr. Silva is known for her ability to lead multidisciplinary teams, translating clinical needs into practical technological solutions. Her recent innovations in 3D-printed medical devices during the COVID-19 pandemic highlight her commitment to accessible healthcare in low- and middle-income settings.

Online Profiles

ORCID Profile

Dr. Silva maintains a professional digital presence primarily through LinkedIn, where she shares updates about her research, medical innovations, conference presentations, and collaborations with interdisciplinary teams. Her profile also highlights her experience in medical education, leadership roles in hospital management, and interest in emerging healthcare technologies. Her LinkedIn profile serves as a platform for networking with peers, students, and international researchers in anesthesiology and surgical sciences. You can connect with her here: linkedin.com/in/andréa-silva-872949247.

Education

Dr. Andréa Jorge Silva graduated with her Doctor of Medicine (MD) degree from the Federal Fluminense University on October 31, 1991. She went on to complete a medical residency in anesthesiology, gaining in-depth training in perioperative care, airway management, and intensive care support. Her formative academic years laid the foundation for her later role as both a clinician and a researcher. Her education at one of Brazil’s top public universities continues to influence her practice and teaching as she now mentors medical students and residents at the same institution.

Research Focus

Dr. Silva’s current research is centered on the development and clinical validation of a low-cost, 3D-printed videolaryngoscope (VLG3DUFF) designed to improve access to safe intubation techniques in settings with limited resources. Her work addresses a critical gap in the availability of high-cost airway management devices in developing countries. By combining medical insight with engineering principles, she aims to create durable, efficient, and accessible alternatives to traditional videolaryngoscopes. This research also includes simulation-based testing and clinical comparisons, highlighting safety, usability, and performance during rapid sequence induction.

Experience

Throughout her career, Dr. Silva has held multiple roles within the medical and academic community, most notably as Head of the Medical Care Division at Antonio Pedro University Hospital. She has extensive experience in anesthesia for complex surgical procedures and has been involved in postgraduate education and research development for many years. Her leadership during the COVID-19 pandemic was marked by innovation, as she initiated technology-driven solutions to improve clinical response. She is also an active participant in academic congresses and has contributed significantly to curriculum development in anesthesiology at the Faculty of Medicine, Federal Fluminense University.

Research Timeline

Dr. Silva began her most notable research work in mid-2020, at the height of the COVID-19 pandemic, when she led a multidisciplinary team to develop a 3D-printed videolaryngoscope in response to the shortage of airway management devices. The project spanned five months (June–November 2020), focusing on design, prototyping, and simulation testing. In 2021, she coordinated a follow-up clinical study from April to November, comparing the VLG3DUFF device to the standard Macintosh blade in actual surgical settings. These two consecutive projects mark a key period in her research career and have resulted in peer-reviewed publications and a pending medical patent.

Awards & Honors

While no specific awards are listed in her record, Dr. Silva’s work has been recognized through national and international conference invitations and publications in high-impact journals. The innovation behind the VLG3DUFF videolaryngoscope was selected for presentation at the Brazilian Congress of Anesthesiology and the Latin American Congress of Anesthesiology in 2023 and 2024, indicating peer recognition of her project’s impact. The pending patent for her device also reflects its value as an original contribution to clinical practice. Her recognition continues to grow through interdisciplinary collaboration and advancements in affordable medical technology.

Top-Noted Publication

Dr. Silva’s most distinguished publication is titled “3D Printing of a Low-Cost Videolaryngoscope for Tracheal Intubation,” published in Scientific Reports in July 2025. This paper outlines the complete process of developing a novel airway management tool using additive manufacturing technology. The research was driven by the urgent need for affordable medical devices during the COVID-19 pandemic and showcases a successful collaboration between medical professionals and engineers. The study has garnered attention for offering a viable solution to a global healthcare challenge and has laid the groundwork for future innovations in low-cost medical equipment for emergency and surgical use.

Ximenes, T. N., Resende, M. A. C., Videira, R. L. R., Silva, A. J., Figueiredo, J. A., Gonçalves, I. T., & Resende, B. C. (2025). Alternative method for airway approach in anesthesia of a newborn with occipital encephalocele. Brazilian Journal of Case Reports, 5(1). https://doi.org/10.52600/2763-583X.bjcr.2025.5.1.bjcr22

Panagiotis Tsamos, Chemistry, Best Researcher Award

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Panagiotis Tsamos: Post Doc Researcher at A.U.Th. , Faculty of Sciences, School of Chemistry, Greece

Dr. Panagiotis Tsamos is a dedicated Postdoctoral Researcher at Aristotle University of Thessaloniki (A.U.TH.), specializing in environmental chemistry with an emphasis on radiological protection and heavy metal contamination. He holds a PhD in Chemistry and has extensive experience studying radionuclide behavior and removal in aquatic environments. His research aims to develop innovative, sustainable methods to mitigate environmental pollution caused by industrial activities, contributing to public health and ecological safety.

Online Profiles

ORCID Profile

Dr. Tsamos, While he currently does not maintain a LinkedIn profile or personal website, his research and academic contributions are well-documented through his institutional affiliation with A.U.TH., Faculty of Sciences, School of Chemistry. He actively participates in international conferences and collaborations, enhancing his visibility in the environmental chemistry research community.

Education

He completed his doctoral studies at Aristotle University of Thessaloniki, graduating in July 2022 with a PhD in Chemistry. His academic training included advanced coursework and research in radiochemistry, environmental toxicology, and analytical techniques. His thesis work involved the study of uranium and toxic metal contamination in natural and industrial environments, providing a strong scientific foundation for his ongoing postdoctoral research.

Research Focus

Dr. Tsamos’s research primarily focuses on improving the removal of radionuclides and toxic metals from aqueous solutions through novel sorbent materials and chemical methods. He investigates the environmental impact of industrial pollutants, particularly from oil and coal-fired power plants, aiming to develop effective remediation technologies that reduce radiological and chemical hazards in water bodies and soil.

Experience

With over a decade of experience, Dr. Tsamos has contributed significantly to environmental monitoring and remediation research. He has authored numerous peer-reviewed articles and presented his findings at major international conferences. His collaborations span interdisciplinary teams working on environmental safety, radiological risk assessment, and sustainable pollution control, reflecting a comprehensive approach to addressing complex environmental challenges.

Research Timeline

Beginning his research career in 2014, Dr. Tsamos has steadily expanded his expertise from investigating radionuclide distribution in mining and power plant areas to exploring biosorption techniques and competing cation effects on radionuclide sorption. His progression culminated in a PhD focused on environmental contamination and has now transitioned into postdoctoral work aimed at advancing nuclide removal methodologies and assessing environmental risks associated with industrial pollutants.

Awards & Honors

Although specific awards are not explicitly listed, Dr. Tsamos’s participation in multiple international conferences as an invited speaker and his certification (3EHKR-Z6U8B-YW2O7-G9ITM) demonstrate professional recognition and credibility in his field. His work continues to be cited in environmental science literature, indicating respect and acknowledgement from the academic community.

Top-Noted Publication

Among his most influential works is the 2025 article “The Impact of Crude Oil Facilities on the Accumulation of Heavy Metals and Radionuclides in a Coastal Environment,” published in Water Air Soil Pollution. This study provided critical insights into how industrial operations affect local ecosystems and offered data-driven recommendations for pollution mitigation and environmental monitoring programs, highlighting Panagiotis’s expertise in applied environmental radiochemistry.

  • Noli, F., Papalanis, E., Tsamos, P., Kapnisti, M. (2021). The effect of humic acid and competing cations Na⁺ and Ca²⁺ on the sorption of uranium and europium onto bentonite from Kimolos Island (Greece). Journal of Radioanalytical and Nuclear Chemistry. DOI: 10.1007/s10967-021-07722-y.
    This study investigates the complex interactions affecting radionuclide sorption in bentonite, highlighting environmental factors that influence contaminant mobility in natural clays.

  • Noli, F., Tsamos, P. (2018). Seasonal variations of natural radionuclides, minor and trace elements in lake sediments and water in a lignite mining area of North-Western Greece. Environmental Science and Pollution Research. DOI: 10.1007/s11356-017-9801-z.
    An in-depth analysis of seasonal changes in radionuclide and trace element levels, contributing valuable data on environmental impact related to mining activities.

  • Noli, F., Tsamos, P., Stoulos, S. (2017). Spatial and seasonal variation of radionuclides in soils and waters near a coal-fired power plant of Northern Greece: environmental dose assessment. Journal of Radioanalytical and Nuclear Chemistry. DOI: 10.1007/s10967-016-5082-0.
    This paper provides a comprehensive dose assessment based on radionuclide distribution, offering insights into environmental safety around coal power plants.

  • Noli, F., Tsamos, P. (2016). Concentration of heavy metals and trace elements in soils, waters and vegetables and assessment of health risk in the vicinity of a lignite-fired power plant. Science of the Total Environment. DOI: 10.1016/j.scitotenv.2016.04.098.
    This research evaluates contamination levels and potential health risks from industrial emissions, supporting efforts to manage and mitigate environmental hazards.

Arulpandian P, Engineering, Best Researcher Award

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Dr. Arulpandian P: Assistant Professor at Sri Shakthi Institute of Engineering and Technology, India

Dr. P. Arul Pandian is an accomplished academic researcher and mechanical engineer with a Ph.D. in Mechanical Engineering, specializing in metallurgy, composite materials, and product design development. He brings extensive experience in material innovation, rapid prototyping, reverse engineering, and mechanical testing. His expertise spans aluminum metal matrix composites, polymer-derived ceramics, and sustainable energy harvesting technologies. He has successfully transitioned numerous concepts from research to patent-protected functional products, contributing significantly to government-funded projects in India.

Online Profiles

ORCID Profile

Dr. Arulpandian maintains a professional presence on LinkedIn, where he shares insights about his latest research, collaborations, and academic initiatives. His profile highlights a comprehensive overview of his research projects, patents, publications, and professional achievements. This platform serves as a hub for connecting with fellow researchers, industry experts, and potential collaborators worldwide.
LinkedIn Profile

Education

Dr. Arulpandian completed his doctoral studies at PSG College of Technology, Coimbatore, earning a Ph.D. in Mechanical Engineering with a strong emphasis on advanced materials and manufacturing processes. Prior to this, he obtained a Master of Engineering degree in Engineering Design from K.S. Rangasamy College of Technology, which equipped him with in-depth knowledge of design principles and simulation tools. His foundational undergraduate education was completed at the Institute of Road and Transport Technology, where he graduated with a Bachelor of Engineering in Mechanical Engineering, laying the groundwork for his research career.

Research Focus

His research primarily focuses on advancing aluminum-based metal matrix composites (MMCs) reinforced with polymer-derived ceramics, aiming to enhance mechanical properties and thermal stability for industrial applications. He employs state-of-the-art characterization techniques such as SEM, EDS, and X-ray analysis to understand material behavior and failure mechanisms. Additionally, Dr. Arulpandian is dedicated to exploring sustainable and renewable energy solutions, including kinetic energy harvesting systems, and has contributed to the design of autonomous agricultural UAVs, reflecting his commitment to integrating engineering innovations with societal benefits.

Experience

Dr. Arulpandian has accrued extensive teaching and research experience in leading academic institutions. As an Assistant Professor, he has guided undergraduate and postgraduate students through industry-relevant projects, fostering practical skills alongside theoretical knowledge. During his tenure as a Project Associate on DST-funded initiatives at PSG College of Technology, he led metallurgical and product design research teams, managing project lifecycles from conception to prototype development. His earlier roles included mentoring design projects and conducting hands-on laboratory sessions, further enhancing his pedagogical expertise.

Research Timeline

Beginning as a Junior Research Fellow on a DRDO project in 2015, Dr. Arulpandian engaged deeply in experimental product design and literature analysis. He transitioned to a pivotal role as a Project Associate on multiple DST-funded projects from 2019 to 2024, leading innovations in metal matrix composite fabrication and testing. Concurrently, he balanced academic responsibilities as an Assistant Professor, culminating in a holistic career that bridges research, teaching, and product development up to mid-2025.

Awards & Honors

Throughout his career, Dr. Arulpandian has been recognized for his contributions to mechanical engineering and material science. Notably, he received the prestigious Young Scientist Award from Makkal Sinthanai Peravai in 2015, honoring his innovative work in UAV development for smart agriculture. He also secured victories in technical competitions at Karpagam Institute of Technology, reflecting his commitment to excellence and continuous learning in engineering domains.

Top-Noted Publication

One of Dr. Arulpandian’s most impactful publications is:
Pandian, A., Chelliah, N. M., Rohatgi, P. K., & Surappa, M. K. (2023). Effect of melt temperature on microstructural and strength properties of in-situ aluminum metal matrix composites containing SiCNO particles. Journal of Composite Materials, 57(9), 1571–1578. This paper investigates critical processing parameters influencing composite microstructure and performance, contributing valuable insights to the field of metal matrix composites. DOI: 10.1177/00219983231158737

  1. Effect of melt temperature on microstructural and strength properties of in-situ aluminum metal matrix composites containing SiCNO particles
    Journal of Composite Materials, 2023
    DOI: 10.1177/00219983231158737
    EID: 2-s2.0-85149395563
    ISSN: 1530-793X, 0021-9983
    Contributors: Pandian, A.; Chelliah, N.M.; Rohatgi, P.K.; Surappa, M.K.
    This paper explores the influence of melt temperature on the microstructure and mechanical strength of aluminum metal matrix composites reinforced with silicon carbonitride oxide (SiCNO) particles produced via in-situ processes. The study offers valuable insights into optimizing processing parameters to achieve improved composite properties, advancing material design for high-performance applications.

  2. Impact of age hardening on the corrosion characteristics of dissimilar aluminum alloys welded using an innovative MIG welding approach
    International Journal of Civil, Environmental and Agricultural Engineering, 2023-12-27
    DOI: 10.34256/ijceae2325
    ISSN: 2582-2721
    Contributors: Sahil Garg; Arulpandian Palanisamy
    This research investigates how age hardening treatments affect corrosion resistance in dissimilar aluminum alloys joined through a novel Metal Inert Gas (MIG) welding technique. The findings contribute to understanding welding metallurgy and corrosion protection strategies, relevant to structural and environmental engineering applications.

Alok Kumar Ray, Renewable Energy, Young Researcher Award

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Doctorate Alok Kumar Ray: Assistant Professor at National Institute of Technology Jamshedpur, India

Dr. Alok Kumar Ray is a Mechanical and Energy Engineer with over 11 years of academic, research, and industrial experience in fluid and thermal sciences. He specializes in the design, simulation, and experimental validation of sustainable energy systems, particularly high-temperature thermal energy storage integrated with supercritical CO₂ Brayton cycles. A technically accomplished researcher and educator, Dr. Ray’s work combines computational fluid dynamics, system-level modeling, material characterization, and techno-economic analysis. His research contributions have been published in high-impact journals, and he is passionate about bridging the gap between renewable energy research and scalable industrial applications.

Online Profiles

Google Scholar Profile

  • Citations (115 total): Indicates that the author’s work has received moderate attention, with all citations occurring since 2020 — suggesting recent and growing influence.

  • h-index (5): This means the author has at least 5 papers each cited 5 or more times. It reflects a modest but solid publication impact, especially for a researcher active within the last 5 years.

  • i10-index (3): The author has 3 publications cited at least 10 times, showing that a few papers are gaining traction and visibility in the field.

Dr. Ray actively engages with the global research and engineering community through professional platforms. His detailed academic and project portfolio is available on LinkedIn, and he can be contacted via email at ray705906@gmail.com. He maintains regular academic correspondence and collaborative networking through professional groups, conferences, and workshops.

Education

Dr. Ray holds a joint doctoral degree (Ph.D.) in Energy and Mechanical Sciences from the University of Queensland (Australia) and the Indian Institute of Technology Delhi (IITD) under the prestigious UQIDAR program, completed with distinction in 2023. He completed his M.Tech. in Mechanical Engineering with a specialization in Fluid and Thermal Sciences from IIT Kanpur in 2013. His academic journey began with a B.Tech. in Mechanical Engineering from VSSUT Burla, where he graduated with distinction. His solid academic foundation is reinforced by competitive fellowships and top-tier institutional training in experimental and computational thermal sciences.

Research Focus

Dr. Ray’s research integrates thermal engineering fundamentals with real-world energy challenges. His core areas include high-temperature phase change materials (PCMs), latent heat thermal storage systems, supercritical CO₂ power cycles, concentrated solar power (CSP), and hybrid water-energy systems like membrane distillation. His work combines numerical modeling (CFD using ANSYS Fluent and COMSOL), system simulations (Python, Aspen Plus), and experimental investigations (DSC, IR camera, TGA) to evaluate and optimize the thermophysical and economic performance of sustainable thermal technologies. His multidisciplinary expertise enables comprehensive system-level design, analysis, and validation of advanced thermal solutions for energy storage, industrial heat recovery, and solar-thermal applications.

Experience

Dr. Ray’s professional experience spans academia, research institutions, and industry. He is currently serving as a contractual Assistant Professor at NIT Jamshedpur, where he teaches and supervises research in thermal engineering. Prior to this, he worked at TATA Steel as a Researcher on waste heat recovery systems using thermophotovoltaic (TPV) and organic Rankine cycle (ORC) technologies. At Tsinghua University, he contributed to modeling the integration of membrane distillation systems with sCO₂ cycles. He has also held faculty roles at VSSUT Burla and PMEC Berhampur. In the industrial sector, his tenure at Whirlpool India involved simulation of coupled heat and mass transfer processes for household cooking appliances. His diverse roles reflect a blend of theoretical knowledge, practical application, and educational leadership.

Research Timeline

From December 2018 to June 2023, Dr. Ray conducted his doctoral research at IIT Delhi and the University of Queensland, developing a novel high-temperature latent heat storage system for integration with sCO₂ Brayton cycles. His research included CFD modeling, experimental setup design, material testing, and techno-economic assessments. In early 2023, he contributed to membrane distillation modeling during his short-term research at Tsinghua University. From mid-2023 to late 2024, he worked on waste heat recovery solutions at TATA Steel. He transitioned into academia in late 2024, beginning his tenure as an Assistant Professor while continuing to publish and collaborate internationally, including a Visiting Academic position at Cardiff University in 2025.

Awards & Honors

Dr. Ray’s academic excellence and research contributions have been recognized through several honors. He was awarded a Doctorate with Distinction from IIT Delhi in 2023. He received the UQIDAR Fellowship, one of the most competitive joint doctoral programs between India and Australia. In 2022, he was granted a CSIR Foreign Travel Grant to present his work internationally. He was also invited as a Visiting Academic to Cardiff University, UK, in 2025 to collaborate on energy systems modeling. These recognitions reflect both his scientific contributions and international research engagement.

Top-Noted Publication

Among Dr. Ray’s most impactful contributions is the article titled “Transient discharge performance of high-temperature latent storage system integrated with supercritical CO₂ Brayton cycle: A combined analytical and numerical study”, published in Journal of Energy Storage (Vol. 72, July 2023). This study uniquely integrates numerical simulation and analytical modeling to evaluate the thermal discharge dynamics of a latent heat storage unit under realistic operating conditions of an sCO₂ power cycle. The work provides critical insights for CSP plant designers and thermal system integrators, and it has garnered attention for its novelty and practical relevance in the transition to cleaner energy technologies.

1. Sustainable Thermal Distillation Using Supercritical CO₂

Citation:
AK Ray
Journal of Thermal Analysis and Calorimetry, 150(8), 14488 (2025)

Focus:

  • Integration of supercritical carbon dioxide (sCO₂) power cycles with direct contact membrane distillation (DCMD).
  • Targets enhanced thermal efficiency and sustainability in water purification.
  • Investigates recovery and utilization of waste heat from sCO₂ systems to drive the distillation process.

Key Insight:
An innovative coupling of advanced thermodynamic cycles with membrane separation technology for efficient low-grade heat utilization.

2. Comparative Thermodynamic Analysis of Solar ORC with Latent Heat Storage

Citation:
M Kumar, AK Ray, D Rakshit
Journal of the Brazilian Society of Mechanical Sciences and Engineering, 47 (2025)

Focus:

  • Direct vapor generation solar organic Rankine cycle (ORC) integrated with latent heat thermal energy storage (LHTES).
  • Comparative study of multiple organic working fluids to assess thermodynamic performance.
  • Aims at maximizing thermal-to-electric conversion efficiency in solar power systems.

Key Insight:
Fluid selection and proper integration with latent heat storage significantly influence the overall system performance.

3. Thermo-Economic Assessment of Metallic High-Temperature LHTES

Citation:
AK Ray, S Vashisht, D Rakshit, RK Kandasamy, H Gurgenci
Frontiers in Thermal Engineering, 5, 1549926 (2025)

Focus:

  • Design and evaluation of metallic-based latent heat storage systems for high-temperature applications.
  • Combines thermodynamic modeling with economic analysis.
  • Assesses trade-offs between thermal performance and cost across different metallic materials and configurations.

Key Insight:
Metallic LHTES units show strong potential for industrial energy storage but require careful material and design optimization for cost-effectiveness.

4. Experimental and Computational Study of Shell-and-Tube LHTES

Citation:
AK Ray, D Rakshit, KR Kumar, H Gurgenci
Thermal Science and Engineering Progress, 102969 (2024)

Focus:

  • Experimental validation and computational fluid dynamics (CFD) modeling of a medium- to high-temperature shell-and-tube LHTES.
  • Analysis of heat transfer, phase change dynamics, and performance parameters.

Key Insight:
Presents a robust framework for analyzing and optimizing latent heat storage performance under varying thermal and flow conditions.

5. Instability Modes in Electro-Hydro-Dynamic Atomization

Citation:
AK Ray
Flow, Turbulence and Combustion, 24, 50–77 (2024)

Focus:

  • Investigation of electrohydrodynamic (EHD) atomization mechanisms, focusing on droplet formation instabilities.
  • Combines theoretical modeling with experimental studies.
  • Explores different modes of instability and scaling relationships.

Key Insight:
Advances fundamental understanding of EHD spray behavior, with implications for high-precision atomization technologies.

Safiqul Islam, Mathematics, Best Researcher Award

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Doctorate Safiqul Islam: Assistant Professor at King Faisal University, Saudi Arabia

Dr. Safiqul Islam is an accomplished Indian mathematician and theoretical astrophysicist, currently serving as an Assistant Professor of Mathematics at King Faisal University, Kingdom of Saudi Arabia. With over nine years of post-Ph.D. teaching and research experience, his academic contributions span across differential equations, cosmology, astrophysics, and general relativity. He is especially known for his work on wormholes, gravastars, and exotic spacetime geometries. Dr. Islam has authored two scholarly books and over a dozen peer-reviewed journal articles published in reputed international journals such as Physical Review D, Physics Letters B, and Astrophysics and Space Science. His interdisciplinary expertise bridges mathematical modeling and theoretical physics, earning him global recognition in both academic and research communities.

Online Profiles

Google Scholar Profile

Dr. Islam is actively engaged in the global academic community through multiple professional platforms. His Google Scholar profile reflects a growing impact, with 599 citations, an h-index of 10, and an i10-index of 11, showcasing the reach and influence of his work in theoretical astrophysics and applied mathematics. He is a Fellow of the Royal Astronomical Society (UK), and an Associate Member of the Institute of Physics (UK). Additionally, he holds life memberships in the American Mathematical Society, Indian Mathematical Society, Indian Association for General Relativity and Gravitation, Calcutta Mathematical Society, and the Astronomical Society of India, among others. These affiliations affirm his commitment to scientific collaboration and continued research dissemination across disciplines and borders.

Education

Dr. Islam holds a Ph.D. in Mathematics from Jadavpur University, Kolkata (2014), where he focused on “Some Theoretical Features of Wormholes and Gravastars.” He further advanced his academic career with a three-year postdoctoral research position at the prestigious Harish-Chandra Research Institute in Allahabad, where he specialized in applied mathematics, mathematical physics, and theoretical astrophysics. Prior to this, he completed his Master of Science (M.Sc.) in Applied Mathematics from Netaji Subhas Open University, Kolkata in 2010, and earned a Bachelor of Science (B.Sc.) with honors in Mathematics from Presidency College under the University of Calcutta in 1998. His educational background laid a strong foundation for his later work in cosmology and general relativity.

Research Focus

Dr. Islam’s research is rooted in applied mathematics and its applications to theoretical physics, particularly in cosmology, astrophysics, and gravitational theory. His central research areas include wormhole solutions in higher-dimensional spacetime, gravastar models, and singularity-free compact star structures within general relativity and modified gravity theories. He actively explores the implications of non-commutative geometry, tensor analysis, and differential geometry in constructing models that provide deeper insight into the nature of the universe. His work also extends to black hole physics, the dynamics of the early universe, and (2+1)-dimensional cosmological models, all of which aim to reconcile mathematical theory with physical observations.

Experience

Dr. Islam’s professional journey includes a diverse range of academic and research roles across multiple countries. Since December 2021, he has been serving as Assistant Professor at King Faisal University in Saudi Arabia. Before this, he taught at St. Theresa International College, Thailand (2019–2021), where he contributed to international education in mathematics. From 2016 to 2019, he held a Postdoctoral Fellowship at Harish-Chandra Research Institute, India—an institution renowned for advanced research in physics and mathematics. He also served as a Visiting Fellow at RTM Nagpur University in 2017. Throughout his career, Dr. Islam has taught a wide spectrum of subjects including Linear Algebra, Differential Equations, Abstract Algebra, Probability and Statistics, Numerical Analysis, and Mathematical Modelling at both undergraduate and postgraduate levels.

Research Timeline

Dr. Islam commenced his formal research career after qualifying the Research Entrance Test (RET) at Jadavpur University in 2011. His Ph.D. research began the same year and concluded in 2014, focusing on exotic astrophysical structures. Postdoctoral research followed at Harish-Chandra Research Institute between 2016 and 2019, during which he deepened his work on general relativity and compact stars. Parallel to his research, he gained significant teaching experience across India, Thailand, and Saudi Arabia. Since 2013, he has consistently published in high-impact journals and participated in international conferences. His work has steadily evolved, incorporating modern mathematical techniques and interdisciplinary models in theoretical physics.

Awards & Honors

Dr. Islam has received several academic honors, including the Global Faculty Award 2021 by AKS Education Awards in recognition of his excellence in teaching and research. He was appointed as an International Advisory Committee Member for the 2nd International Conference on Research Frontiers in Sciences held at G.H. Raisoni College of Engineering in India. He has also been invited to numerous national and international scientific conferences and seminars. His research efforts have been supported by grants and funding worth approximately ₹4,20,000 from Harish-Chandra Research Institute and other institutions. His active roles in advisory and academic panels further affirm his leadership in the global academic community.

Recent Notable Publications

One of Dr. Islam’s most influential research papers is “Searching for Higher Dimensional Wormholes with Non-Commutative Geometry,” co-authored with Farook Rahaman, Saibal Ray, and P.K.F. Kuhfittig, and published in Physical Review D (2012). This work presents a theoretical framework for wormholes in higher-dimensional spacetime influenced by non-commutative geometry, contributing significantly to the understanding of exotic spacetime geometries in general relativity. The paper has garnered significant citations and remains a reference point for researchers working on higher-dimensional models and quantum gravity-related phenomena.

  • Cosmic Time-Dependent Traversable Wormhole Solutions
    S. Islam
    Journal of Astrophysics and Astronomy, Vol. 46 (2), Article 44, 2025.

  • Enhanced Mutation Strategy Based Differential Evolution for Global Optimization Problems
    P. Mishra, M. Ali, S. Islam
    PeerJ Computer Science, Vol. 11, e2696, 2025.

  • Wormholes and Energy Conditions in Rastall-Rainbow Gravity
    A. Banerjee, S. Islam, A. Pradhan, M. Zeyauddin
    2023.

  • Viscous Modified Ghost Scalar Field Dark Energy Models with Varying G
    R. Talole, P. Kumar, S. Islam
    Romanian Astronomical Journal, Vol. 33, pp. 81-109, 2023.

  • A Probe into a (2+1)-Dimensional Combined Cosmological Model in f(R,T) Gravity
    S. Islam, M. Aamir, I. Radinschi, D. Bandyopadhyay
    Axioms, Vol. 11, Article 605, 2022.

Statement of Strength and Eligibility for Best Researcher Award: Dr. Safiqul Islam

Dr. Safiqul Islam is a distinguished mathematician and theoretical astrophysicist with over nine years of impactful research and academic experience in applied mathematics, cosmology, and general relativity. Currently an Assistant Professor at King Faisal University, he has made significant contributions to the understanding of exotic spacetime geometries, including wormholes and gravastars, through innovative theoretical frameworks.

His scholarly excellence is demonstrated by a robust publication record, including two authored books and over a dozen high-impact peer-reviewed articles in prestigious journals such as Physical Review D and Physics Letters B. With an h-index of 10 and nearly 600 citations, Dr. Islam’s work commands global recognition and influence in interdisciplinary fields bridging mathematics and theoretical physics.

Dr. Islam’s expertise in advanced mathematical modeling and theoretical astrophysics is complemented by his active involvement in international academic communities, reflected in his fellowship with the Royal Astronomical Society and memberships in leading scientific societies worldwide. His leadership roles in international conferences and advisory committees further attest to his stature as a leading researcher.

His consistent research productivity, innovative approach to complex problems in cosmology and gravitation, and dedication to advancing knowledge make him eminently deserving of the Best Researcher Award. Dr. Islam’s work not only pushes the boundaries of fundamental science but also inspires cross-disciplinary collaboration and future breakthroughs in understanding the universe.

Selda Coskuner Aktas, Business Administration, Best Researcher Award

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Assoc. Prof Selda Coskuner Aktas: Faculty member at Hacettepe University, Turkey

Dr. Selda Coşkuner Aktaş is an Associate Professor in the Department of Family and Consumer Sciences at Hacettepe University, Turkey. She is a respected scholar in interdisciplinary fields combining sociology, consumer sciences, and family studies. Her research spans over 20 years and addresses key issues such as gender dynamics, work-family balance, financial literacy, and sustainable consumption. Known for her collaborative and evidence-based approach, Dr. Coşkuner Aktaş has contributed to national and international academic communities through research, teaching, and editorial roles. She continues to mentor young researchers while actively participating in policy-related projects and scholarly publishing.

Online Profiles

Google Scholar Profile

Scopus Profile

Dr. Coşkuner Aktaş maintains active academic profiles across major scholarly platforms to share her research and engage with the academic community. Her institutional affiliation is with Hacettepe University (Email: seldac@hacettepe.edu.tr), and she can also be reached via her personal academic email (seldacoskuner@gmail.com). Her published works are accessible through her Google Scholar profile and ResearchGate, where she connects with researchers globally. Her ORCID iD and other identifiers are used for transparent tracking of her academic output across various databases.

Her Google Scholar profile is available here, with 438 total citations, an h-index of 10, and an i10-index of 10. In the past five years alone, she has accumulated 279 citations, with an h-index of 8 and an i10-index of 6—reflecting her growing influence in the fields of family and consumer sciences, work-family dynamics, and financial behavior.

Education

Dr. Coşkuner Aktaş has a rich and diverse academic background. She earned her Ph.D. in Family and Consumer Sciences from Hacettepe University in 2013, where her doctoral research explored the mediating role of work-family conflict in faculty life satisfaction. Prior to that, she completed an M.Sc. in the same department in 2007. She holds two undergraduate degrees from Hacettepe University (B.Sc. in Home Economics, 2004) and Anadolu University (B.Sc. in Business Administration, 2005). She later complemented her social science expertise with a second B.Sc. in Sociology from Anadolu University in 2020, demonstrating a strong interdisciplinary foundation.

Research Focus

Dr. Coşkuner Aktaş’s research integrates family science, organizational behavior, and consumer studies to examine how social systems and economic pressures shape individual and family well-being. Her major interests include work-family conflict and facilitation, gender-based role expectations, financial satisfaction, consumer behaviors, and sustainability. She often uses mixed-methods and comparative generational perspectives to explore emerging social dynamics. A significant portion of her recent work has focused on how crises such as COVID-19 have impacted family roles, parental stress, and remote work adaptation, with a strong emphasis on gendered experiences and policy implications.

Experience

Dr. Coşkuner Aktaş has been part of Hacettepe University’s academic staff since 2004, starting as a Research Assistant in the Department of Family and Consumer Sciences. She was awarded a prestigious international research scholarship in 2011–2012, which enabled her to work at North Carolina State University in the USA as a Doctoral Research Scholar. She was promoted to Assistant Professor in 2015 and later to Associate Professor in 2017. Over the years, she has taught undergraduate and graduate courses, supervised theses, participated in numerous academic projects, and engaged in community outreach and academic service at both national and international levels.

Research Timeline

Her early research (2004–2010) focused on organizational behavior, workplace ergonomics, and employee commitment, especially among service staff like housekeeping personnel. Between 2010 and 2015, her doctoral studies redirected her work toward work-family dynamics and satisfaction in academic settings. From 2016 onward, her research scope widened to include financial literacy, gender equity, and sustainable consumption. The COVID-19 pandemic brought a new dimension to her research, emphasizing digital work-life transitions, parental stress, and resilience in family structures. Her research trajectory shows a clear evolution from organizational behavior to family systems within broader social contexts.

Awards & Honors

Throughout her academic career, Dr. Coşkuner Aktaş has been recognized for her scholarly impact and professional service. She has been invited to serve on editorial boards, including her current role with the Turkish Journal of Earthquake Research (2024–present), and previously as Associate Editor of The International Journal of the Humanities. Her work has received attention in both academic and practitioner circles, especially her publications on work-family conflict and financial behavior. She has also received institutional recognition and support for international research collaboration and continues to be sought after for speaking engagements and peer review activities.

Top-Noted Publication

One of her most widely cited and discussed studies is her 2025 article, “Was COVID-19-related working from home (WFH) a chance for change? Gender-based experiences of parents,” published in Humanities & Social Sciences Communications. This publication explores how the pandemic-induced shift to remote work affected parental roles, household responsibilities, and gender equity within Turkish families. By applying a gender lens, she highlighted the uneven burden of care work and the limited structural support for women, sparking important policy and academic conversations about work-life integration in post-pandemic societies.

  • Coşkuner, S., & Yertutan, C. (2006). A Study on the Organizational Commitment of Housekeeping Employees. Turkish Public Administration Annual, 32, 71-88.

  • Coşkuner Aktaş, S., & Çiçek, B. (2021). Aile-İş Kolaylaştırması, Cinsiyet ve Toplumsal Cinsiyet: Üniversite Çalışanları Örneği. Journal of Economy Culture & Society, 63(1).

  • Coşkuner, S. (2016). Exploring the Links between Work and Family Conflict or Facilitation. Imperial Journal of Interdisciplinary Research (IJIR), 2(4).

  • Coşkuner, S. (2010). Tüketici Bilgilendirme Aracı olarak Gıda Ambalajları. TÜPADEM TÜKÇEV.

  • Coşkuner Aktaş, S. (2025). Was COVID-19-related working from home (WFH) a chance for change? Gender-based experiences of parents. Humanities and Social Sciences Communications, 12(1), 1-15.

Statement of Strength and Eligibility for Best Researcher Award

Assoc. Prof. Selda Coşkuner Aktaş
Department of Family and Consumer Sciences, Hacettepe University, Turkey

Assoc. Prof. Selda Coşkuner Aktaş stands out as an exemplary scholar whose interdisciplinary research has significantly advanced understanding in the fields of family science, consumer behavior, and gender studies over the past two decades. Her distinguished academic career is marked by rigorous scholarship, innovative methodologies, and impactful contributions that bridge sociology, organizational behavior, and financial literacy.

Research Excellence and Impact:
Dr. Coşkuner Aktaş has produced a robust body of work addressing critical social issues such as work-family conflict, gender dynamics, financial satisfaction, and sustainable consumption. Her research is characterized by methodological rigor, employing mixed methods and comparative generational analysis that enrich the empirical understanding of evolving family roles and consumer behaviors. Notably, her recent, highly cited publication on COVID-19-induced work-from-home experiences with a gender lens has sparked international dialogue and policy reflection on work-life integration and gender equity. This work alone has garnered substantial citations and demonstrates her ability to respond innovatively to emerging global challenges.

Academic Leadership and Collaboration:
Her long-standing engagement at Hacettepe University, including mentoring graduate students and junior researchers, showcases her commitment to cultivating future generations of scholars. She has been recognized internationally through a prestigious research scholarship at North Carolina State University, reinforcing her global academic footprint. Additionally, Dr. Coşkuner Aktaş actively contributes to scholarly communities by serving on editorial boards and peer review panels, thereby shaping research standards and directions in her field.

Interdisciplinary and Societal Relevance:
Dr. Coşkuner Aktaş’s work is particularly valued for its interdisciplinary approach and practical implications. By integrating insights from family sciences, sociology, and consumer sciences, she addresses complex societal issues that resonate beyond academia, informing policy debates related to gender equity, family welfare, and sustainable consumption. Her research during the COVID-19 pandemic exemplifies her ability to generate timely knowledge that supports evidence-based policy-making.

Sustained Academic Productivity and Recognition:
With over 400 citations and a consistent record of impactful publications, Dr. Coşkuner Aktaş has demonstrated sustained scholarly productivity and influence. Her evolving research trajectory—from organizational behavior to family and consumer studies—reflects her adaptability and intellectual breadth.

Conclusion:
Given her extensive scholarly achievements, interdisciplinary research contributions, mentorship, and active service to the academic community, Assoc. Prof. Selda Coşkuner Aktaş is eminently qualified for the Best Researcher Award. Her work not only advances theoretical knowledge but also addresses urgent societal challenges, making her an inspiring role model and a deserving recipient of this prestigious recognition.

Nora Selem, Engineering, Best Researcher Award

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Asst. Prof Nora Selem: Assistant Professor Chemical Engineering Department at Chemical Engineering, Higher Technological Institute, Egypt

Dr. Nora Yehia Selem is a highly regarded Egyptian academic and researcher in the field of Chemical Engineering, currently serving as Assistant Professor at the Higher Technological Institute (HTI), Egypt. With over 15 years of experience in teaching and applied research, she has developed a strong interdisciplinary background in chemical process simulation, environmental engineering, and membrane separation technologies. Her expertise lies in applying chemical engineering principles to address global sustainability challenges, including industrial waste management, water purification, and renewable energy. Dr. Selem is recognized for her dedication to student development, international collaboration, and publishing impactful scientific work.

Online Profiles

Google Scholar Profile

Dr. Selem maintains an active presence in academic networks and professional communication platforms. Her Google Scholar profile showcases her research output and citations across environmental engineering, membrane technology, and clean energy fields. As of 2025, Dr. Nora Yehia Selem has accumulated 14 citations on her primary Google Scholar profile and 13 citations on an alternate profile. Her current h-index stands at 3 on the main profile and 2 on the secondary profile. These metrics reflect her emerging influence in the fields of membrane technology, industrial wastewater treatment, and chemical process engineering.

Education

Dr. Selem holds a Ph.D. in Chemical Engineering from Cairo University, earned in 2015, where she conducted advanced research on the preparation of geopolymer bricks using industrial waste materials. Prior to that, she received her Master of Science in Chemical Engineering from the same institution in 2009, focusing on modeling and simulation of reactive distillation columns for MTBE production. She completed her undergraduate studies with distinction at the Higher Technological Institute, earning her Bachelor’s degree in Chemical Engineering in 2005. Her educational background has equipped her with a solid grasp of process design, simulation, and environmental systems.

Research Focus

Dr. Selem’s research encompasses a wide spectrum of themes within chemical and environmental engineering. Her core focus lies in membrane separation technologies, particularly emulsion liquid membranes (ELM) enhanced with nanoparticles and ionic liquids for the efficient removal of heavy metals and pollutants from industrial wastewater. She is also known for her work on geopolymer materials derived from clay and lime-based industrial wastes, contributing to sustainable building materials. In recent years, she has extended her research to include biomass pyrolysis, reactor hydrodynamics using gamma-ray computed tomography, and electrochemical hydrogen production, positioning her work at the intersection of materials science, clean energy, and environmental remediation.

Experience

Dr. Selem began her academic career as a Teaching Assistant in 2005 at HTI, progressing to Assistant Lecturer in 2009 and becoming a full-time Assistant Professor in 2016. Over this time, she has taught a diverse portfolio of courses including heat and mass transfer, polymer chemistry, plant and vessel design, and material and energy balances. She currently teaches both undergraduate and graduate-level subjects, while also supervising student research. Since 2024, she has taken on an additional role as a Part-time Assistant Professor at City University of Cairo, where she teaches general chemistry, environmental impact assessment, and computer-aided design. Her teaching is characterized by clarity, interactivity, and strong linkage to real-world applications.

Research Timeline

Between 2005 and 2009, Dr. Selem conducted her master’s research on reactive distillation modeling, focusing on simulation tools like Aspen Plus. From 2010 to 2015, her Ph.D. research explored geopolymer construction materials from waste sources. From 2016 onward, she delved into wastewater treatment using nanocomposite membranes, advancing her experimental skills and publication record. In 2022, she expanded her international footprint as a Visiting Scholar at Missouri University of Science and Technology, where she collaborated on cutting-edge topics such as trickle-bed reactor hydrodynamics and gamma-ray tomography. Her recent projects (2023–2025) involve phosphoric acid separation, nanocellulose-reinforced membranes, and hydrogen generation from wastewater, aligning with global environmental priorities.

Awards & Honors

Dr. Selem has received numerous national and international recognitions throughout her career. She holds over 20 certifications from institutions such as DAAD, Cairo University, and Missouri S&T, covering topics including radiation safety, university teaching strategies, fundraising skills, and scientific publishing. Notably, she completed a comprehensive laboratory safety training series during her U.S. fellowship in 2022. She has been a member of the Egyptian Society of Membrane Technology (ESMT) since 2023, and has presented her work at prominent conferences such as the International Conference on Solid Waste Technology and Management (USA, 2014) and the International Conference for Membrane Technology (Egypt, 2024).

Top-Noted Publication

Among her impactful contributions, Dr. Selem’s most recognized publication is the article titled “Emulsion liquid membrane (ELM) enhanced by nanoparticles and ionic liquid for extracting vanadium ions from wastewater,” published in Environmental Science and Pollution Research (2024). This study combines innovative membrane engineering with green chemistry approaches to effectively separate heavy metals, offering practical solutions for industrial effluent treatment. The paper has garnered attention for its originality, methodological rigor, and potential application in large-scale water purification systems. It reflects her broader commitment to advancing environmental sustainability through chemical innovation.

  • Local hydrodynamics and phase distribution in large-scale trickle bed reactors using multi-detector γ-ray densitometry
    S. Uribe, A. Jasim, S.A. Gheni, N. Selem, N. Filali, T.M. Leib, S. Sengupta, M.H. Al-Dahhan
    Chemical Engineering Science, Article No. 122095, 2025

  • Emulsion liquid membrane (ELM) technique for efficient separation of heavy metals from acidic solutions including phosphoric acid: a review
    O. Karai, N.Y. Selem, K. Benabderazak, J. Mendil, H. Mazouz, M.H. Al-Dahhan
    International Journal of Environmental Science and Technology, 1–24, 2025

  • Sustainable nanocellulose reinforced polyethersulfone membranes coated with tetraethyl orthosilicate for separation of phosphoric acid from wastewater
    N.Y. Selem, E.S.M. El-Zahed, H. Abdallah, S.A. Hawash
    Applied Water Science, Volume 15, Issue 4, Article 83, 2025

  • Pyrolysis Kinetics of Pumpkin Seeds
    N.Y. Selem
    Journal of Advanced Engineering Trends, Volume 43, Issue 2, pp. 205–217, 2024

  • Kinetics of Pyrolysis of Cigarette Butts
    N.Y. Selem, N.F. Al Hoseny
    Journal of Engineering and Applied Science, Volume 67, Issue 8, pp. 1981–1993, 2020

Mostafa Rady, Agriculture, Innovative Researcher Award

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Prof. Dr Mostafa Rady: Head of Botany Department at Faculty of Agriculture Egypt

Prof. Mostafa M. Rady is an eminent Egyptian plant physiologist and educator serving as a Professor and Head of the Botany Department, Faculty of Agriculture at Fayoum University. With over 30 years of academic service and international collaborations, he is celebrated for his contributions to plant stress physiology, sustainable agriculture, and organic farming. A certified international trainer in academic and leadership development, Prof. Rady has mentored generations of scientists and students while publishing prolifically in high-impact journals. He is globally ranked among the top 0.05% of researchers and has consistently appeared in Stanford University’s Top 2% Scientists list since 2020, cementing his status as a leader in agricultural science.

Online Profiles

Prof. Rady’s academic influence is well documented across prominent global platforms. His Google Scholar profile records over 11,475 citations, an h-index of 63, and 166 i10-index publications, reflecting a long-standing commitment to high-impact research. His Scopus account reports 7,398 citations and an h-index of 53, under Author ID: 37078037800. He is also indexed in ORCID (0000-0001-8254-5263), AD Scientific Index, and Research.com, where he is ranked #1 in Egypt and #1479 globally in Plant Science and Agronomy. These profiles showcase his extensive publication record and global research collaborations.

Education

Prof. Rady holds a Ph.D. in Plant Physiology from Cairo University (2002), where his dissertation focused on enhancing salt tolerance in crops through propolis seed treatments. His earlier M.Sc. in Plant Physiology (1998) examined physiological stress responses in wheat and faba bean under challenging environments. He earned his B.Sc. in Agricultural Science, Plant Production from Cairo University (1991) with distinction, graduating Excellent with Honors. This solid academic foundation enabled him to pursue a specialized research path in abiotic stress, plant nutrition, and environmental sustainability, which now defines his scientific career.

Research Focus

Prof. Rady’s research is rooted in understanding how plants physiologically and biochemically respond to environmental stressors such as salinity, drought, heavy metals, and ionic toxicity. He investigates the role of natural biostimulants, antioxidants, nano-fertilizers, and organic soil amendments in boosting plant defense mechanisms, photosynthetic efficiency, and yield potential. His innovative studies contribute to climate-smart agriculture, aiming to enhance crop resilience under marginal conditions. His work also extends to organic farming practices, pollution mitigation, and gene expression modulation, positioning him at the forefront of applied plant biotechnology.

Experience

Prof. Rady has progressed through a distinguished academic career from Teaching Assistant (1993) to Professor (since 2012), and currently serves as Head of the Botany Department at Fayoum University. Over the years, he has taught numerous undergraduate and postgraduate courses in plant science, supervised a wide array of MSc and PhD theses, and guided student research initiatives that received national awards. His leadership extends to training faculty and university staff through capacity-building programs on scientific writing, research ethics, time management, and entrepreneurship. Additionally, he has served as a consultant and Co-PI in multiple national and international research consortia, bridging science, policy, and agricultural practice.

Research Timeline

Prof. Rady’s research spans more than two decades of continuous funding, collaboration, and innovation. His early work in the 1990s focused on fungal disease control and abiotic stress physiology. From 2006 to 2009, he participated in an Egyptian-American partnership on export bean production. He has since served as Co-PI on numerous projects funded by the National Research Center (Egypt) and King Abdulaziz University (Saudi Arabia). Notably, between 2021–2024, he was part of the €1 million EU PRIMA ReCROP Project, addressing biodiversity and resilience in Mediterranean agro-ecosystems with teams from seven countries. His research reflects a sustained focus on climate adaptation, stress mitigation, and biotechnology applications in agriculture.

Awards & Honors

Prof. Rady has received widespread national and international recognition for his scientific and educational achievements. He was awarded the Outstanding Scientist Award by VDGOOD Professional Association (India, 2021) and was honored by Fayoum University annually since 2010 for international publication and research excellence. He has also been recognized by the International Labour Organization (ILO) in 2011 and 2013 for mentoring award-winning student entrepreneurship projects. In global rankings, he placed #2 in Egypt and #51 in Africa for Biological Sciences (AD Scientific Index 2021), and has been consistently featured on Stanford University’s Top 2% Scientists list, affirming his global impact.

Top-Noted Publication

One of Prof. Rady’s standout publications in 2025 is titled “Novel Organic Formulations’ Utilization as Remediators for Salt-Affected Soil Improves Wheat Growth, Physio-Biochemical Attributes, Productivity, and Economic Profitability”, published in the Journal of Soil Science and Plant Nutrition (Vol. 25, pp. 3983–4003). This study demonstrates the synergistic effects of organic inputs on soil restoration and wheat productivity under salinity stress. By integrating eco-friendly practices with agronomic science, the publication exemplifies Prof. Rady’s commitment to solving critical agricultural challenges through innovative, sustainable solutions.

  • Synergistic effects of clove fruit extract and nano-silicon to enhance drought resilience and productivity of soybean through improved plant defense mechanisms
    BMC Plant Biology (Open Access)
    This impactful article explores the dual application of clove extract and nano-silicon as a strategy to improve soybean performance under drought conditions. The study revealed that the combination significantly enhanced physiological defense mechanisms, including antioxidant enzyme activity and osmoprotectant accumulation, resulting in better drought tolerance and yield. This work provides new avenues for eco-friendly stress mitigation using plant-based and nano-enabled approaches.
    Citations: 1

  • Novel Organic Formulations’ Utilization as Remediators for Salt-Affected Soil Improves Wheat Growth, Physio-Biochemical Attributes, Productivity, and Economic Profitability
    Journal of Soil Science and Plant Nutrition (2025)
    This research presents the application of innovative organic inputs to rehabilitate salt-affected soils and improve wheat performance. The study demonstrated enhanced plant growth, photosynthetic efficiency, and yield under saline stress, while also delivering better economic returns. The work serves as a model for integrating soil health restoration with sustainable wheat farming in arid and semi-arid regions.
    Citations: 0

  • A novel group of bio-stimulators: their attenuation of abiotic stress impacts in crop plants
    (Review Article – 2025)
    This comprehensive review highlights emerging classes of biostimulants and their physiological roles in alleviating abiotic stresses, including salinity, drought, and heavy metal toxicity. The paper synthesizes recent advances in bio-based solutions and molecular pathways through which these agents operate, providing a roadmap for future applications in stress-resilient agriculture.
    Citations: 0

  • Positive impacts of compost and biochar from orange peel waste on Phaseolus vulgaris physio-biochemistry and productivity and soil properties under salinity stress
    Communications in Soil Science and Plant Analysis (2025)
    In this article, Prof. Rady and collaborators explored the repurposing of agro-waste—specifically orange peel—into compost and biochar for enhancing the performance of common beans under saline stress. The study showed significant improvements in growth metrics, physiological traits, and soil health, offering an innovative waste-to-resource strategy for sustainable agriculture.
    Citations: 5

  • Corn Silk-Enriched Leguminous Compost Enhances Soil Health and Fenugreek Performance Under Salinity Stress
    Communications in Soil Science and Plant Analysis (2025)
    This study investigates the benefits of leguminous compost enriched with corn silk as a soil amendment to counteract the effects of salinity on fenugreek. Results confirmed improved soil properties, nutrient uptake, and plant physiological responses, underscoring the potential of organic residues in combating soil degradation and enhancing crop resilience.
    Citations: 0

Strengths Supporting Prof. Dr. Mostafa Rady’s Eligibility for the Innovative Researcher Award

1. Groundbreaking Research in Climate-Resilient and Sustainable Agriculture

Prof. Dr. Mostafa Rady has made pioneering contributions to the field of sustainable agriculture by developing nature-based and eco-friendly approaches to improve crop performance under environmental stress. His research focuses on mitigating the adverse effects of salinity, drought, and heavy metal toxicity by using organic formulations, natural biostimulants, nano-silicon, and recycled agricultural waste products. Notably, his studies on using clove fruit extract, nano-silicon, compost derived from orange peels, and leguminous residues have opened new avenues for enhancing soil fertility, boosting plant defense mechanisms, and promoting resilient crop yields. These innovations contribute directly to advancing climate-smart agricultural practices and improving food security in marginal and saline environments.

2. Exceptional Research Productivity and International Recognition

Prof. Rady has established himself as one of the world’s most impactful agricultural scientists. He has authored over 200 peer-reviewed publications, with more than 11,475 citations and an h-index of 63, as reported on Google Scholar. Scopus indexes over 7,000 citations and an h-index of 53. His outstanding global recognition is further validated by his continuous appearance on Stanford University’s Top 2% Scientists list since 2020. According to Research.com, he ranks first in Egypt and is among the top 1,500 researchers worldwide in the field of Plant Science and Agronomy. These rankings underscore the depth, influence, and relevance of his scientific contributions to the global academic community.

3. Strong Engagement in International and Interdisciplinary Collaborations

Throughout his career, Prof. Rady has demonstrated a sustained commitment to interdisciplinary collaboration and international research engagement. He has been involved in multiple national and cross-border research initiatives, including the prestigious €1 million EU PRIMA ReCROP Project (2021–2024), which aimed to strengthen biodiversity and resilience in Mediterranean agro-ecosystems. He has also worked with scientific teams from King Abdulaziz University (Saudi Arabia) and participated in Egyptian-American agricultural research partnerships. His collaborative efforts have contributed to the integration of scientific research with real-world farming systems, facilitating the application of laboratory findings to field-level improvements in agriculture.

4. High-Impact Publications Addressing Practical Agricultural Challenges

Prof. Rady’s research has consistently addressed some of the most pressing challenges in agriculture, particularly soil degradation and crop stress under adverse climatic conditions. His recent 2025 publication in the Journal of Soil Science and Plant Nutrition demonstrated how organic soil amendments can restore salt-affected soils while enhancing wheat yield and economic profitability. Similarly, his studies on compost and biochar derived from agro-waste reflect a circular economy approach by converting waste into valuable agricultural inputs. These contributions bridge the gap between research and practice, providing practical, scalable, and sustainable solutions for improving crop performance and land management.

5. Leadership in Education, Training, and Research Capacity Building

In addition to his scientific excellence, Prof. Rady plays a pivotal role in academic leadership and capacity development. As the Head of the Botany Department at Fayoum University, he has supervised numerous MSc and PhD theses, led research groups, and taught core courses in plant physiology and environmental biology. He is a certified international trainer, having delivered workshops on scientific writing, research ethics, time management, and entrepreneurship to both faculty and students. His mentorship has received recognition from institutions such as the International Labour Organization, which honored him for supporting student innovation and enterprise development. His dedication to education and mentoring strengthens the next generation of researchers and contributes to the broader scientific ecosystem.