Rodouan Touti | Hydrogen Storage | Best Researcher Award

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Prof. Rodouan Touti | Hydrogen Storage | Best Researcher Award

Prof. Rodouan Touti, University Sidi Mohamed Ben Abdellah, Morocco

Professor Touti Rodouan is a distinguished scholar specializing in nuclear and medical physics, currently serving as a professor and coordinator at the Faculty of Sciences, Dhar El Mahraz, Sidi Mohamed Ben Abdellah University in Fez, Morocco. Born on May 21, 1981, in Taounate, Morocco, he holds Italian-Moroccan nationality. With a strong academic and professional background, his research spans dosimetry, radiation protection, and advanced materials for energy storage. He has contributed significantly to medical physics and environmental safety through pioneering work in radiation oncology, brachytherapy, and computational modeling. Fluent in multiple languages, Professor Rodouan has authored numerous impactful publications, advancing global scientific knowledge. Beyond academia, he is actively engaged in developing sustainable solutions and fostering education in the scientific community. 🌍🏅

Publication Profile

Orcid

Scopus

🎓 Education

Professor Touti Rodouan’s academic journey reflects his dedication to advancing physics and engineering. He earned a PhD in Physical Sciences and Engineering (2014) from Semlalia Faculty of Science, Cadi Ayyad University, Marrakech. His research delved into radiation safety and materials modeling. His Master’s Degree in Physics of Matter and Radiation (2009) from Chouaib Doukkali University, El Jadida, laid the groundwork for his expertise in nuclear analysis. He completed his Bachelor’s in Physical Sciences (2007) at Dhar El Mahraz University, Fez, and excelled in advanced physics courses. From his early academic years, Professor Rodouan has continuously sought professional development, earning certifications in Italian (B1 Level), English, and computer science. His commitment to education extends to his teaching and mentoring roles, fostering new generations of physicists.📘👨‍🎓

Experience

With over 15 years of experience, Professor Touti Rodouan has made significant contributions to nuclear and medical physics. Currently a professor at the Faculty of Sciences, Sidi Mohamed Ben Abdellah University, Fez, he coordinates academic and research activities. Previously, he taught at the Faculty of Science, Ain Chock, Casablanca, and served as a secondary school teacher in physics and chemistry. His expertise spans dosimetry, radioprotection, and material sciences, with extensive work in radiation oncology and brachytherapy. Professor Rodouan has led numerous courses at the undergraduate and postgraduate levels, focusing on radiation-matter interaction, nuclear physics, and mathematical modeling in physics. He has supervised impactful theses on radiotherapy optimization, energy storage materials, and eco-friendly solutions. His experience extends to advanced research in perovskite materials and computational physics, making him a recognized expert in his field. 🏥📚

🏆 Skills

Professor Touti Rodouan possesses extensive expertise in nuclear physics, medical dosimetry, and material sciences. He is proficient in operating systems like Linux and Windows and adept in programming languages, including Python, Fortran, and C++. He is skilled in using specialized physics codes such as GEANT4, GATE, MCNPX, and QUANTUM ESPRESSO for advanced modeling and simulations. With a strong command of scientific software like LaTeX and Microsoft Office, he excels in academic writing and data visualization. Multilingual in English, Arabic, French, and Italian, he effectively communicates complex ideas across diverse audiences. His teaching portfolio includes radiation protection, nuclear safety, and mathematical physics. His leadership and mentoring skills are reflected in the successful supervision of postgraduate research.🥇🌟

🔎 Research Focus

Professor Touti Rodouan’s research focuses on dosimetry, radiation protection, and advanced materials modeling. He assesses radiation doses from radioactive elements in medical and environmental contexts, utilizing CR-39 and LR-115 detectors. His innovative approaches include using Density Functional Theory (DFT) to model structural, elastic, and optical properties of perovskites for energy storage applications. His work in medical physics emphasizes optimizing radiotherapy techniques, including IGRT and HDR brachytherapy, to enhance safety and efficacy in cancer treatment. Professor Rodouan is deeply involved in developing eco-friendly hybrid materials for sustainable energy solutions. His interdisciplinary research integrates computational physics and experimental methodologies, addressing global challenges in energy efficiency and environmental safety.🧬🔬

 

Publication Top Notes

Impact of Pressure on Quaternary Heusler Alloy LiScNiGe for Optoelectronic Application

Authors: El Mustapha Hrida, Soufiane Bahhar, Abdellah Tahiri, Mohamed Idiri, Rodouan Touti, Abderrahim Jabar, Mohamed Naji

Year: 2025

DFT‐Based Ab Initio Calculations of Structural, Electronic, Mechanical, and Optical Properties of Ga‐based Fluoroperovskite GaXF3 (X = Ca and Sr)

Authors: Toufik Karafi, El Mustapha Hrida, Mohamed Idiri, Youssef Didi, Abdellah Tahiri, Rodouan Touti, Mohamed Naji

Year: 2025

Exploring Novel Thymol-based Amino-thiazole Hybrids: Computational Evaluation of Anticancer Activity

Authors: Amal Bouribab, Bouchra Rossafi, Abdelkbir Errougui, Rodouan Touti, Professor Samir Chtita

Year: 2025

Mechanism and Stereoselectivity of Epoxidation Reaction of a β-Himachalene Derivative: Insights from DFT, Molecular Docking, ADMET, and Molecular Dynamics Investigations

Authors: Bouchra Rossafi, Fatima Outahar, Imad Hammoudan, Mohamed Moumou, Rodouan Touti, Ahmed Benharref, Samir Chtita

Year: 2025

Analysis of 238U, 232Th, 222Rn, and 220Rn Contents in Medical Drugs, Petroleum Products, and Petrol/Gas-oil Exhaust Fumes Using CR-39 and LR-115 Type II Nuclear Track Detectors – Experimental and New Monte Carlo Simulation Approaches

Authors: Hicham Harrass, Rodouan Touti, Brahim El Ouardi, Makrame Ben El Fakir, Lamia Hjiyej Andaloussi, Hamid Chakir

Year: 2024

Determination of Uranium and Thorium Contents in Various Material Samples of Morocco Using a New Monte Carlo Code for Evaluating the Mean Critical Angle of Etching of the CR-39 and LR-115 Type II SSNTDs

Authors: Hassan Khajmi, Hicham Harrass, Rodouan Touti, Abdessamad Tounsi

Year: 2023

Determination of CR-39 and LR-115 Type II Mean Critical Angle of Etching Using a New Monte Carlo Code

Authors: Hicham Harrass, Abdellatif Talbi, Rodouan Touti

Year: 2021

Determination of Radiation Doses to the Skin Due to U and Th Series for Therapeutic Applications in the Merzouga Sand Baths

Authors: Rodouan Touti, Hicham Harrass

Year: 2020

Measurement of 238U, 232Th, and 222Rn Concentrations in Different Table Oil Samples: Determination of Committed Effective Doses Received by Consumers

Author: Rodouan Touti

Year: 2019

Measurement of 238U and 232Th in Petrol, Gas-oil, and Lubricant Samples by Using Nuclear Track Detectors and Resulting Radiation Doses to the Skin of Mechanic Workers

Authors: M.A. Misdaq, A. Chaouqi, J. Ouguidi, Rodouan Touti, A. Mortassim

Year: 2015

Radon and Thoron Measured in Petrol and Gas-oil Exhaust Fumes Using CR-39 and LR-115 II Nuclear Track Detectors: Radiation Doses to the Respiratory Tract of Mechanic Workers

Authors: M.A. Misdaq, A. Chaouqi, J. Ouguidi, Rodouan Touti, A. Mortassim

Year: 2015

Annual Committed Effective Dose from Olive Oil Due to 238U, 232Th, and 222Rn: Estimated for the Moroccan Public from Ingestion and Skin Application

Authors: M.A. Misdaq, Rodouan Touti

Year: 2012

 

Hala El-Khozondar | Solar Cells | Best Researcher Award

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Prof. Dr. Hala El-Khozondar | Solar Cells | Best Researcher Award

Professor at Islamic University of Gaza, Palestine, State of

Professor Hala J. El-Khozondar is a distinguished physicist and electrical engineer, currently a Visiting Professor at Imperial College London and a Professor at the Islamic University of Gaza. With expertise in nanomaterials, photonics, and renewable energy, she has made significant contributions to science and education. She has held leadership roles, including department head and research committee chair. Her research spans optical sensors, solar cells, and nonlinear transmission lines. A mentor and advisor, she has supervised numerous students and research projects. Recognized globally, she has received multiple awards for her outstanding contributions to academia and scientific research.

Publication Profile

Google Scholar

Education Background📚🎓

Prof. El-Khozondar earned her Ph.D. in Physics with a minor in Electrical Engineering (1999) and a Master’s in Physics (1995) from New Mexico State University, USA. She previously obtained a Bachelor’s degree in Physics (1987) and a Teaching Certificate Diploma (1989) from Birzeit University, West Bank. Her postdoctoral research was conducted at the Max Planck Institute for Nuclear Physics, Germany. Throughout her academic journey, she has pursued advanced studies in nanotechnology, photonics, and engineering, collaborating with international institutions and contributing to groundbreaking research in material science and electrical engineering.

Professional Experience 🏫🔬

Prof. El-Khozondar is a Distinguished Professor at the Islamic University of Gaza and a Research Fellow at Imperial College London. She has served as the Head of the Electrical Engineering and Smart Systems Department and held leadership roles in quality assurance and research committees. Previously, she worked at the Technical University of Munich and was a Vice Dean for External Relations. Her teaching spans undergraduate and graduate levels, covering physics, electrical engineering, and renewable energy. She has supervised numerous students, contributed to academic policy, and played key roles in scientific collaborations.

Awards and Honors 🏆🎖

Prof. El-Khozondar has received numerous accolades, including the Palestinian Ministry of Higher Education’s Best Researcher Award (2023), IUG’s Best Research Prize (2021), and the TWAS-Aro Prize for Science Diplomacy (2018). She has been honored by ISESCO, DAAD, and the Alexander von Humboldt Foundation for her contributions to science. She is a Fellow of the Islamic World Academy of Sciences and TWAS. Recognized internationally, she has been awarded multiple research fellowships in Germany, Belgium, and Turkey. Additionally, she has been named a TUM Research Alumni Ambassador and recognized for excellence in academic publishing and science diplomacy.

Research Focus 🔬🌍

Prof. El-Khozondar specializes in nanomaterials modeling, photonic crystal-based optical sensors, and solar cell efficiency enhancement. Her work includes Monte Carlo simulations for material evolution, nonlinear transmission lines for microwave applications, and polarization rotation in optical fibers. She explores fiber Bragg grating sensors, electromagnetic radiation effects on tissues, and optical waveguides for nonreciprocal devices. Using MATLAB and OrCad, she develops models for photovoltaic performance. Her interdisciplinary research integrates physics, engineering, and materials science, driving innovation in renewable energy, sensor technologies, and photonics, with a focus on advancing smart systems and sustainable solutions for global scientific challenges.

Publication Top Notes

Design of an isolated renewable hybrid energy system: a case study ⚡🌍
Year: 2022 | Cited by: 113
A review study of photovoltaic array maximum power tracking algorithms ☀️🔋
Year: 2016 | Cited by: 112
Standalone hybrid PV/wind/diesel‐electric generator system for a COVID‐19 quarantine center 🏥🌬️🔋
Year: 2023 | Cited by: 92
Design of one-dimensional refractive index sensor using ternary photonic crystal waveguide for plasma blood samples applications 🩸🔬
Year: 2019 | Cited by: 92
Carbon footprint and energy life cycle assessment of wind energy industry in Libya 🌿💨⚙️
Year: 2024 | Cited by: 84

Conclusion

Professor Hala J. El-Khozondar is a distinguished researcher with a Ph.D. in Physics and a minor in Electrical Engineering, renowned for her contributions to nanomaterials, photonic structures, optical sensing, and renewable energy. With extensive research experience at prestigious institutions such as Imperial College London, Max Planck Institute, and the Technical University of Munich, her work has significantly advanced photonics, fiber optics, and solar energy applications. Her leadership roles as a department head, research committee chair, and quality assurance leader highlight her influence in academia, while her dedication to teaching and mentoring has shaped future generations of engineers and scientists. Recognized internationally, her impactful research and interdisciplinary contributions make her a highly deserving candidate for the Best Researcher Award.
  

 

Zenghui Qiu | Electrochemical energy | Best Researcher Award

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Prof. Dr. Zenghui Qiu | Electrochemical energy | Best Researcher Award

Prof. Dr. Zenghui Qiu, +Beijing University of Chemical Technology, China

Dr. Zenghui Qiu is a distinguished researcher in material science and nanotechnology, specializing in electrochemistry, energy storage materials, supercapacitors, and electrocatalysis. He is affiliated with the College of Mathematics & Physics at Beijing University of Chemical Technology, China. His research contributions focus on hybrid electrochemical energy storage devices, with numerous publications in top-tier journals such as ACS Applied Materials & Interfaces, Nano Research, and Journal of Alloys and Compounds. As an active peer reviewer for leading scientific journals, Dr. Qiu plays a crucial role in advancing the field of electrochemical energy storage. His studies on MXene-based hydrogels, graphene composites, and zinc-ion capacitors have significantly impacted the development of next-generation energy storage technologies. Recognized for his expertise, he collaborates with top researchers and institutions worldwide, driving innovation in sustainable energy solutions. 🚀🔋

Google Scholar

Scopus

Education 🎓📚

Dr. Zenghui Qiu pursued his academic journey in material science and electrochemistry, earning his advanced degrees from prestigious institutions. His research focused on the design and synthesis of high-performance energy storage materials, particularly for supercapacitors and hybrid electrochemical devices. Throughout his education, he specialized in MXene-based materials, graphene composites, and electrocatalytic nanomaterials, gaining expertise in their electrochemical properties and applications. He conducted extensive studies on polyaniline-intercalated Ti₃C₂Tₓ hydrogels, defect-reduced graphene oxide, and metal oxide heterostructures to enhance energy storage efficiency. His doctoral research led to the development of novel electrode architectures, optimizing their electrochemical performance for next-generation energy storage systems. With a strong foundation in physical chemistry and nanomaterials, Dr. Qiu has emerged as a leading scientist in the field, contributing significantly to advancements in sustainable energy. His educational background laid the foundation for his impactful research and global collaborations in energy storage and material science. ⚡🔍

Experience 🏢🔬

Dr. Zenghui Qiu has extensive research experience in electrochemical energy storage, material science, and nanotechnology. As a faculty member at the College of Mathematics & Physics, Beijing University of Chemical Technology, he has led multiple research projects focusing on high-performance supercapacitors, hybrid electrochemical devices, and electrocatalysts. He has authored numerous high-impact publications in leading journals, contributing to advancements in MXene-based hydrogels, defect-engineered graphene, and metal-oxide heterostructures. His expertise in energy storage materials has positioned him as a key reviewer for prestigious journals, including ACS Applied Materials & Interfaces, Nano Research, and Chemical Engineering Journal. Dr. Qiu collaborates with global research teams to develop sustainable energy solutions, working on next-generation energy storage systems with improved efficiency and durability. His research has influenced various applications, from portable electronics to large-scale energy storage, making significant strides in the field of electrochemical energy technologies. ⚙️🔋

Awards & Honors 🏅🥇

Dr. Zenghui Qiu has received multiple accolades for his contributions to material science and electrochemical energy storage. His groundbreaking work on high-performance supercapacitors and hybrid electrochemical devices has earned him recognition from top-tier scientific institutions. He has been honored with prestigious awards for his innovative research on MXene-based hydrogels and graphene composites, advancing the field of energy storage materials. His role as a distinguished reviewer for leading journals such as ACS Applied Materials & Interfaces and Nano Research has been acknowledged through editorial distinctions. Dr. Qiu’s contributions to electrocatalysis and energy storage have been recognized at international conferences, where he has received best paper and outstanding researcher awards. His work on high-energy-density zinc-ion capacitors has garnered significant attention, leading to multiple citations and collaborations with esteemed research groups. His commitment to advancing sustainable energy solutions continues to be celebrated worldwide. 🏆🔬

Research Focus 🔍⚡

Dr. Zenghui Qiu specializes in material science, nanotechnology, and electrochemical energy storage. His research focuses on designing and developing advanced supercapacitors, hybrid electrochemical devices, and electrocatalytic materials. He has made significant contributions to the study of MXene-based hydrogels, graphene composites, and metal oxide heterostructures for high-performance energy storage applications. His work explores the electrochemical properties of novel materials, enhancing their capacitance, cycling stability, and rate performance. He investigates the interfacial chemistry and charge transfer mechanisms of nanostructured electrodes, optimizing their functionality for real-world applications. Dr. Qiu’s research has led to breakthroughs in zinc-ion capacitors, asymmetric supercapacitors, and hydrogen evolution electrocatalysts, contributing to sustainable energy solutions. His work aims to bridge the gap between fundamental nanomaterials research and practical energy storage technologies, driving innovations in clean and renewable energy. 🌍🔋

 

Publication Top Notes

🔬 W. Yan, D. Wu, X. Zhang, Z. Zhang, H. Xu – “Contact enhancement effect: Extending the duration of contact state to enhance the output of contact-separation triboelectric nanogenerators” – Materials Today Communications, 2025 📄 (📑 0 citations)

S. Meng, P. Liao, X. Zhang, Z. Qiu, H. Xu – “Ti3C2TX@PPy-reduced graphene oxide heterostructure hydrogel for supercapacitor with excellent rate capability” – Journal of Alloys and Compounds, 2025 ⚙️ (📑 0 citations)

 

 

 

Moonyong Kim | Solar Energy | Academic Engagement Excellence Award

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Dr. Moonyong Kim | Solar Energy | Academic Engagement Excellence Award

Dr. Moonyong Kim, UNSW Sydney, Australia

Dr. Moonyong Kim is a Postdoctoral Fellow at UNSW Sydney, specializing in photovoltaic (PV) technology and sustainability 🌞. Holding a PhD in Photovoltaic and Solar Energy Engineering, he has led interdisciplinary projects with over $5.1M in funding 💰. His research focuses on sustainable PV manufacturing, lifecycle assessments (LCA), and innovations for terawatt-scale production 🔋. Dr. Kim has published 70+ articles and contributed to patents on PV efficiency 🌍. He collaborates with global industry leaders like Trina Solar and JA Solar, driving advancements in material recycling and emissions reduction. He is a member of the Korean Academy of Scientists and Engineers 🏅.

 

Publication Profile

Google Scholar

Academic and Professional Background 🌞

Dr. Moonyong Kim is a Postdoctoral Fellow at UNSW Sydney, specializing in the sustainability of photovoltaic (PV) module manufacturing and lifecycle assessments (LCA) 🌍. He holds a PhD in Photovoltaic and Solar Energy Engineering and has successfully led interdisciplinary projects in PV systems, securing over $5.1M in research funding 💰. With expertise in Python programming and teaching LCA standards, he has published 70+ research articles and contributed to patents. His work focuses on sustainable PV manufacturing and innovations for terawatt-scale production 🔋, fostering collaborations with leading global PV industry partners like Trina Solar and JA Solar 🌐.

 

Research and Innovations 🔬

Dr. Moonyong Kim has been involved in research projects with over $5.1M in funding, focusing on sustainable photovoltaic (PV) manufacturing and innovative PV systems 🌞. His key projects include ARENA initiatives for terawatt-scale PV sustainability, AI-based hetero tandem solar cell development (in collaboration with NRF Korea-Australia), and sustainability roadmap development for JA Solar 🌍. With more than 150 citations in top-tier journals, his work has significantly impacted the field of photovoltaic research 📚. Dr. Kim’s research continues to drive advancements in PV systems, contributing to both academic knowledge and industry applications 🌐.

 

Areas of Research ⚡

Dr. Moonyong Kim’s research focuses on advancing photovoltaic (PV) technology and improving the sustainability of solar energy systems 🌞. His work includes lifecycle assessment (LCA) to evaluate the environmental impact of PV manufacturing 🌍. He is dedicated to innovations in terawatt-scale manufacturing, striving to make large-scale solar production more efficient and sustainable 🔋. His research also covers defect engineering to enhance PV performance and material recycling to minimize waste and improve resource efficiency ♻️. Through these efforts, Dr. Kim aims to contribute to the future of clean energy and sustainable manufacturing practices 🌱.

 

Publication Top Notes  

  • Evidence of an identical firing-activated carrier-induced defect in monocrystalline and multicrystalline silicon197 citations (2017) 🌞
  • Design considerations for multi-terawatt scale manufacturing of existing and future photovoltaic technologies176 citations (2021)
  • Hydrogen induced degradation: A possible mechanism for light-and elevated temperature-induced degradation in n-type silicon141 citations (2018) 🔋
  • Advanced hydrogenation of dislocation clusters and boron-oxygen defects in silicon solar cells133 citations (2015) 🏗️
  • A four-state kinetic model for the carrier-induced degradation in multicrystalline silicon: Introducing the reservoir state103 citations (2018) 🌱
  • The role of hydrogenation and gettering in enhancing the efficiency of next‐generation Si solar cells102 citations (2017) 🔋
  • Device Design Rules and Operation Principles of High-Power Perovskite Solar Cells for Indoor Applications101 citations (2020) 🏡
  • Hydrogen-induced degradation: Explaining the mechanism behind light-and elevated temperature-induced degradation in n-and p-type silicon85 citations (2020)
  • Hydrogen-induced degradation78 citations (2018) 🌍
  • Evaluating the Impact of SiNx Thickness on Lifetime Degradation in Silicon63 citations (2019) 📉

Madiha Ijaz | Environmental Science | Best Researcher Award

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Dr. Madiha Ijaz | Environmental Science | Best Researcher Award

Dr. Madiha Ijaz, University of the Punjab, Pakistan

Dr. Madiha Ijaz is a dedicated academic and researcher in the field of Environmental Sciences with a specialization in occupational health and safety (OHS). She has been serving as a Lecturer and Head of the Geology Department at Govt. Postgraduate College for Women in Lahore since 2018. Dr. Ijaz completed her Ph.D. in Environmental Sciences, focusing on ergonomic hazards in mining and quarrying industries. With over 12 years of experience, she has authored 11 research papers and is involved in various environmental and occupational safety initiatives. Dr. Ijaz is also an active participant in national and international scientific conferences. 📚💼

 

Publication Profile

Orcid

Academic Background 🎓🌱

Dr. Madiha Ijaz holds a Ph.D. in Environmental Sciences with a specialization in ergonomic hazards and exposure assessments (OHS) from the University of the Punjab (2021). She completed her M.Phil. in Environmental Sciences at GC University Lahore in 2015, and her M.Sc. in Environmental Sciences from the University of the Punjab in 2011. Additionally, Dr. Ijaz earned a Bachelor’s in Education (B.Ed.) in 2015 from Allama Iqbal Open University, Islamabad, enhancing her teaching expertise. She also holds a B.Sc. in Double Mathematics and Physics from Postgraduate College for Women, Sialkot. 📚👩‍🎓

 

Professional Experience 🌍👩‍🏫

Dr. Madiha Ijaz has diverse experience in academia and environmental consultancy. Since November 2021, she has been teaching Fundamentals of Ergonomics and Noise Pollution to MPhil OHS students at the College of Earth and Environmental Sciences, University of the Punjab. She has served as a Lecturer in Geology at Govt. Postgraduate College for Women, Lahore since January 2018. Dr. Ijaz has also managed examination systems for 21 disciplines and contributed to the M.Phil. OHS admission committee. Previously, she worked as an Environmental Analyst at Weekly Cutting Edge Magazine (2015-2016) and as an Environmentalist at Universal Environmental Consultants (2011-2014). 🌱📚

 

Training and Workshops 📚🎓

Dr. Madiha Ijaz has actively participated in various professional development programs. In November 2019, she attended a two-day workshop on “Teaching as a Profession” at the Faculty Development Academy, Punjab Higher Education Commission (PHEC), Pakistan. She also completed a two-week Induction Training in April-May 2018 at the same institution. Dr. Ijaz enhanced her skills in Geographic Information Systems (GIS) by attending a course from August 5 to 27, 2017, at the College of Earth and Environmental Sciences, University of the Punjab. Additionally, she participated in a one-day workshop on Contaminated Site Assessment in February 2016. 🌱👩‍🏫

 

Research Focus

Dr. Madiha Ijaz’s research primarily focuses on environmental health and occupational safety. Her work addresses musculoskeletal disorders (WRMSDs) among workers, particularly in sectors like construction, coal mining, and brick manufacturing, highlighting the impact of ergonomics, dust exposure, and socioeconomic factors on workers’ health. Additionally, she explores environmental pollution through studies on contaminated sites, water quality, and the use of phytoremediation for waste management. Dr. Ijaz also investigates heat-related illnesses in mining environments and the role of microorganisms in environmental cleanup. Her interdisciplinary research links environmental sciences, public health, and sustainable development. 🌍🔬👷‍♀️

 

Publication Top Notes

  • Task-based evaluation of WRMSDs prevailing amongst workers in building construction: An occupational and socioeconomic perspective
    Journal of Back and Musculoskeletal Rehabilitation | Published: 2024-08-26 | DOI: 10.3233/bmr-240078 📊
  • Workplace induced heat-related-illness and kidney disorders amongst coal cutters of underground mines
    Indoor and Built Environment | Published: 2024-07 | DOI: 10.1177/1420326X241229431 💪
  • Environmental conditions and the associated health effects amongst workers of electronic industry
    Pakistan Journal of Science | Published: 2024-03-01 🏭
  • Burkholderia cepacia CS8 improves phytoremediation potential of Calendula officinalis for tannery solid waste polluted soil
    International Journal of Phytoremediation | Published: 2023-02-28 | DOI: 10.1080/15226514.2023.2183717 🌱
  • Risk Factors Associated with the Prevalence of Upper and Lower Back Pain in Male Underground Coal Miners in Punjab, Pakistan
    International Journal of Environmental Research and Public Health | Published: 2020-06-09 | DOI: 10.3390/ijerph17114102 🔧
  • Biogas Synthesis from Leather Industry Solid Waste in Pakistan
    Polish Journal of Environmental Studies | Published: 2020-06-08 | DOI: 10.15244/pjoes/110444 ♻️
  • Dust Generation and Respiratory Impact of Underground Coal-Producing Mines in Pakistan
    Polish Journal of Environmental Studies | Published: 2020-06-08 | DOI: 10.15244/pjoes/115329 🌫️
  • Cross-Sectional Survey of Musculoskeletal Disorders in Workers Practicing Traditional Methods of Underground Coal Mining
    International Journal of Environmental Research and Public Health | Published: 2020-04-09 | DOI: 10.3390/ijerph17072566 🛠️
  • Quantitative and qualitative assessment of musculoskeletal disorders and socioeconomic issues of workers of brick industry in Pakistan
    International Journal of Industrial Ergonomics | Published: 2020-03 | DOI: 10.1016/j.ergon.2020.102933 🧱
  • Role of Acinetobacter sp. CS9 in Improving Growth and Phytoremediation Potential of Catharanthus longifolius under Cadmium Stress
    Polish Journal of Environmental Studies | Published: 2018-11-20 | DOI: 10.15244/pjoes/80806 🌿

 

Neyara Radwan | Engineering | Excellence in Academia Award

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Assoc. Prof. Dr. Neyara Radwan | Engineering | Excellence in Academia Award

Associate Professor at Industrial Management Department. Liwa College, Abu Dhabi, UAE, United Arab Emirates.

Dr. Neyara Radwan is a distinguished academic with expertise in areas such as optimization, sustainability, supply chain management, and energy systems. She has received numerous awards for excellence in research and education, including global recognition for her contributions to sustainability and women leadership. As an associate professor and quality assurance officer, she has contributed significantly to the academic community.

Publication Profile

Education 🎓

Dr. Radwan completed her Bachelor’s degree in Production Engineering and Mechanical Design from Mansoura University, Egypt. She further advanced her academic journey with a Master’s degree in the same field from Mansoura University. She earned her Ph.D. in Production Engineering from Benha University, Egypt, where her thesis focused on electro-chemical honing machining. Her academic excellence is reinforced by a diploma from the Technical University of Sofia, Bulgaria, where she was awarded a scholarship for exceptional performance.

Experience 💼

Dr. Radwan’s academic career spans several prestigious institutions, where she has excelled in various roles. She is currently an Associate Professor in the Industrial Engineering Department at Al Mareefa University in KSA. She has also worked as an Associate Professor at King Abdulaziz University, where she contributed to Ph.D. program quality assurance. Dr. Radwan has held positions at Suez Canal University and several other engineering institutions in Egypt, providing leadership in education and academic development. Her focus is on enhancing quality assurance processes and contributing to program accreditation efforts.

Awards and Honors 🏆

Dr. Radwan has received numerous accolades for her research and academic excellence. Notable honors include the Award of Excellence in Education Development from NCRDSIMS in India, the Golden Academic Award from Tradepreneur Global Academic/Platform UK, and multiple recognition certificates from King Abdulaziz University. She was named one of the most inspiring women globally by the International Internship University in 2022 and received the Golden Award for her work on the circular economy in Saudi Arabia. Additionally, she has been recognized for her contribution to the Sustainable Development Goals by the United Nations Associations of Somalia.

Research Focus 🔬

Dr. Radwan’s research is centered on optimization, sustainable engineering systems, and renewable energy. She explores the intersection of lean manufacturing, supply chain management, and sustainability, particularly in energy systems and solid waste management. Her work integrates artificial intelligence applications to optimize systems’ performance, focusing on improving operation efficiency, reducing waste, and enhancing sustainability. She also investigates optimal scheduling and the impact of circular economy practices on waste management, especially in the context of Saudi Arabia’s Vision 2030.

Conclusion

Dr. Radwan’s impressive body of work, awards, and commitment to sustainable engineering make her a strong candidate for the Excellence in Academia Award. With further engagement in collaborative and impactful research, she can continue to inspire future generations in her field.

Publication Top Notes  

Chromium contamination and effect on environmental health and its remediation: A sustainable approaches

Authors: S. Prasad, K.K. Yadav, S. Kumar, N. Gupta, M.M.S. Cabral-Pinto, S. Rezania, et al.

Citations: 465

Year: 2021

Blockchain convergence: Analysis of issues affecting IoT, AI and blockchain

Authors: S. Guergov, N. Radwan

Citations: 146

Year: 2021

The growth of internet of things (IoT) in the management of healthcare issues and healthcare policy development

Authors: N. Radwan, M. Farouk

Citations: 133

Year: 2021

The internet’s role in undermining the credibility of the healthcare industry

Authors: N. Radwan

Citations: 121

Year: 2022

Strength and flexural behavior of steel fiber and silica fume incorporated self-compacting concrete

Authors: A.M. Saba, A.H. Khan, M.N. Akhtar, N.A. Khan, S.S.R. Koloor, M. Petrů, et al.

Citations: 95

Year: 2021

Synthesis and in vitro antibacterial properties of hydroxyapatite nanoparticles

Authors: H.S. Ragab, F.A. Ibrahim, F. Abdallah, A.A. Al-Ghamdi, F. El-Tantawy, et al.

Citations: 87

Year: 2014

Optimization of solid waste collection using RSM approach, and strategies delivering sustainable development goals (SDG’s) in Jeddah, Saudi Arabia

Authors: N. Radwan, N.A. Khan, R.A.G. Elmanfaloty

Citations: 49

Year: 2021

Upgrading combined anaerobic-aerobic UASB-FPU to UASB-DHS system: cost comparison and performance perspective for developing countries

Authors: M.A. Mazhar, N.A. Khan, A.H. Khan, S. Ahmed, A.A. Siddiqui, A. Husain, V. Tirth, et al.

Citations: 47

Year: 2021

Strategic planning for managing municipal solid wastes with consideration of multiple stakeholders

Authors: A.D. Diaz-Barriga-Fernandez, J.E. Santibañez-Aguilar, N. Radwan, et al.

Citations: 44

Year: 2017

Energy generation and revenue potential from municipal solid waste using system dynamic approach

Authors: P. Alam, M. Sharholy, A.H. Khan, K. Ahmad, T. Alomayri, N. Radwan, A. Aziz

Citations: 35

Year: 2022

Chao Zhu | Energy | Best Researcher Award

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Dr. Chao Zhu | Energy | Best Researcher Award

Shaanxi Province Youth Scientists at State Grid Shaanxi Electric Power Research Institute, China.

Zhu Chao is a prominent researcher in the fields of catalytic gasification, biomass utilization, and energy conversion, with a strong emphasis on advancing technologies such as molten salt and supercritical water heat exchangers, coal gasification, and fluidized bed systems. He has extensive experience in experimental research and process simulation using tools like Aspen Plus. Chao’s career has seen significant contributions to the energy sector, especially in sustainable energy and chemical processes. With a robust portfolio of published research in high-impact journals and several authorized patents, he stands as a key figure in his domain.

Publication Profile

Education 🎓

Zhu Chao completed his educational journey with a focus on energy, chemical engineering, and sustainable energy systems. His formal academic training laid a strong foundation for his subsequent contributions in energy research and industrial applications. He holds a PhD in Chemical Engineering, where his dissertation was centered on catalytic processes and energy conversion technologies. During his academic tenure, he also engaged in various research projects on biomass gasification, renewable energy systems, and energy efficiency. In addition to his academic achievements, Zhu Chao continuously advanced his knowledge by attending specialized workshops, technical training programs, and collaborating with leading experts in the energy sector. His educational background, coupled with years of hands-on experience in both academia and industry, has made him a leading researcher in the field of energy conversion and sustainable energy systems.

Experience 💼

Zhu Chao has amassed extensive experience over his career in both research and industry. He currently serves as a senior engineer and deputy director at the State Grid Shaanxi Electric Power Company, where he leads research and development projects aimed at improving energy generation, consumption, and efficiency. Zhu has successfully overseen numerous high-profile projects, such as the “Research on Key Technologies for Predicting the Peak Shaving Capacity of Generating Units for New Energy Consumption,” funded by significant research grants. His work has encompassed areas such as coal gasification, hydrogen energy, and the development of molten salt and supercritical water heat exchangers. In addition, Zhu has served as the director of various research departments, guiding teams on cutting-edge projects in energy conversion and renewable energy. His hands-on experience in both academic research and industrial application makes him a well-rounded leader in energy technology.

Awards and Honors 🏆

Zhu Chao’s work in the field of energy technology and sustainable energy systems has been recognized through numerous awards and honors. His innovative contributions to energy efficiency and sustainable chemical processes have earned him prestigious recognition within the scientific community. Among his achievements, Zhu has been awarded multiple invention patents for groundbreaking technologies in energy conversion, such as processes for biomass gasification and advanced heat exchangers. These patents showcase his ability to develop practical, impactful solutions that have transformed the energy landscape. His published research has been featured in top-tier journals such as the International Journal of Hydrogen Energy, Renewable Energy, and RSC Advances, further establishing him as a global thought leader. His leadership in industrial and research roles has also been acknowledged through various professional accolades, cementing his position as a driving force in the energy sector.

Research Focus 🔬

Zhu Chao’s primary research focus revolves around energy conversion, catalytic gasification pathways, and sustainable chemical processes. He is particularly interested in exploring the mechanisms of biomass gasification and the depolymerization of residues to enhance energy recovery from biomass. In addition, Zhu has a strong emphasis on the design and modification of molten salt and supercritical water heat exchangers, which are crucial for improving the efficiency of energy conversion systems. His research also extends to coal gasification and oil-containing sludge gasification, where he focuses on optimizing fluidized bed systems to achieve higher energy yields. Furthermore, Zhu is involved in process simulation using Aspen Plus, contributing to the optimization of energy systems at the industrial level. His work bridges the gap between theoretical research and industrial application, driving advancements in clean energy technologies and making a significant impact on sustainable energy development worldwide.

Conclusion

Zhu Chao’s work is undeniably groundbreaking in the field of sustainable energy and chemical processes, with a demonstrated track record of impactful research, patents, and leadership in industry. His contributions have the potential to significantly shape the future of energy technologies. Given his innovative approach, leadership in high-profile projects, and significant academic output, Zhu Chao is an excellent candidate for the Best Researcher Award. Enhancing global collaboration and public outreach could further solidify his standing as a leading researcher in his field.

Publication Top Notes  

Thermal-mechanical coupling characteristics of large-scale molten salt storage tanks under stable operating conditions with varying liquid levels

Authors: Ren, B.; Zhu, C.; Li, B.; Lu, Y.; Wang, Y.

Citations: 0

Year: 2024

OPTIMUM DESIGN METHOD OF SOURCE SIDE PARAMETER FOR DEEP BOREHOLE GEOTHERMAL HEAT PUMP HEATING SYSTEM

Authors: Li, J.; Li, J.; Zhang, G.; Zhu, C.; Kong, W.

Citations: 0

Year: 2024

Optimizing air inlet designs for enhanced natural ventilation in indoor substations: A numerical modelling and CFD simulation study

Authors: Zhang, H.; Wang, L.; Yang, P.; Wang, L.; Zhong, H.

Citations: 0

Year: 2024

Analysis and optimization of a medium-depth ground source heat pump heating systems with heat storage and borehole heat exchangers

Authors: Zhu, C.; Quan, C.; Shi, P.; Zhang, J.; Li, M.

Citations: 4

Year: 2024

Multi-Scheme Optimal Operation of Pumped Storage Wind–Solar–Thermal Generation System Based on Tolerable Energy Abandonment

Authors: Zhang, H.; Wu, S.; Li, H.; Zhou, H.; Jia, Y.

Citations: 1

Year: 2024

Thermofluidic investigations of oil natural transformer: Closed-loop modelling and experimental validation

Authors: Li, Y.; Gao, Y.; Wang, C.; Wang, Y.; Zhang, G.

Citations: 1

Year: 2024

A Fast Response Control Algorithm for Flexible Load in Virtual Power Plants with Differentiated Scenarios

Authors: Lei, R.; Jia, R.; Zhu, C.

Citations: 0

Year: 2024

Performance assessment of deep borehole heat exchanger heating system under different heating modes

Authors: Zhu, C.; Shi, P.; Zhang, T.; Li, F.; Xia, Q.

Citations: 0

Year: 2024

Research on the photoelectricity mismatch loss of photovoltaic and thermal (PV/T) units connected in series at different temperatures

Authors: Zhu, C.; Chen, Z.; Quan, C.; Dong, L.; Feng, H.

Citations: 0

Year: 2024

Preparation and electrocatalytic CO2 reduction of Ni-based single-atom catalyst

Authors: Zhu, C.; Zhang, H.; Tian, D.; Di, H.; Zheng, N.

Citations: 0

Year: 2024

Jian Ding | Economics | Best Researcher Award

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Dr. Jian Ding | Economics | Best Researcher Award

Lecturer at Zhejiang Guangsha Vocational and Technical University of Construction, China.

Jian Ding is a well-rounded researcher with extensive academic experience in public policy, economics, and labor law, holding a PhD from the Australian National University (ANU). His research primarily focuses on institutional economics and labor law in China. With several peer-reviewed publications, including notable articles in Economic Modelling and China & World Economy, he demonstrates significant contributions to his field.

Publication Profile

Education 🎓

Jian Ding completed his PhD in Public Policy or Political Science and International Relations at the Australian National University (ANU) in 2019. His dissertation applied institutional economics to labor studies, focusing on China’s labor laws and their economic impact. He employed a mix of fieldwork, case studies, and regression analysis in his research. Before this, Jian obtained a Master’s degree in International and Development Economics from ANU in 2013, earning distinction across key courses such as Econometrics and Microeconomics. His undergraduate studies were completed at Adelaide University, where he earned a Bachelor of Commerce (Accounting) in 2007, with strong performance in accounting, law, and economics. His educational background reflects a solid foundation in economics, which he has built upon throughout his research career.

Experience 💼

Jian Ding’s professional experience includes both academic and industry roles. After completing his PhD, Jian worked as a tutor and lecturer in economics at ANU and Victoria University, teaching macroeconomics, microeconomics, and international development. His teaching experience spans several semesters, where he shared his expertise with undergraduate students. Additionally, he has worked as a consultant for Qiaosheng Consultation firm, contributing to business model analysis for various industries, including e-commerce, interior design, and food production. Jian’s industry experience includes his role as a business model researcher at IASF, Shenzhen, where he contributed to research on large-scale scientific facilities, writing working papers and collaborating with experts on planning, construction, and operations. Jian’s diverse experience allows him to bridge academic theory with practical industry insights, enhancing the real-world applicability of his research.

Awards and Honors 🏆

Jian Ding has received several prestigious awards and honors throughout his academic and professional career. He was awarded the Australian PhD Scholarship from 2014 to 2018, which supported his doctoral research at ANU. His work has been recognized for its significant contributions to the field of labor law and economics, particularly in relation to China. Jian’s publications have gained recognition in high-impact journals such as Economic Modelling and China & World Economy. His research has contributed to advancing understanding of the dynamics between labor laws, wage rigidity, and economic growth. Additionally, he has conducted peer reviews for academic journals like Energy and China Agricultural Economic Review. Jian’s dedication to both teaching and research has earned him further recognition as a scholar contributing to economic and policy studies. His work continues to be influential in shaping the academic discourse surrounding labor laws and their broader economic implications.

Research Focus 🔬

Jian Ding’s research primarily focuses on labor economics, institutional economics, and the impact of labor laws in China. His PhD dissertation examined the effect of labor laws on Chinese private firms, investigating areas such as wage rigidity, labor contracts, and capital deepening. Jian’s work employs a variety of research methods, including regression analysis, case studies, and fieldwork, to assess how institutional changes in China’s labor market affect economic efficiency. His research on wage rigidity in China, especially in the context of the global financial crisis and post-pandemic recovery, sheds light on broader economic trends. Jian has also contributed to studies on China’s rural-urban migration and its effects on urban economic growth. His interdisciplinary approach allows him to offer insights that bridge the fields of economics, public policy, and political science, with a focus on how economic institutions influence social and economic outcomes.

Skills🔍

Jian Ding possesses a broad range of skills in both academic research and practical application. He is proficient in using statistical software such as STATA and SPSS for data analysis and empirical research, enabling him to conduct complex econometric studies. His academic skills extend to qualitative research methods, including case studies and fieldwork, which he has employed in his studies of China’s labor laws and economic policy. Jian is also a highly effective communicator, fluent in Mandarin, Cantonese, and English, which allows him to collaborate and present research findings to a diverse international audience. He has significant teaching experience, having worked as a tutor and lecturer in economics, imparting knowledge to students at ANU and Victoria University. Jian’s industry experience in business model analysis further enhances his ability to apply academic insights to real-world issues, particularly in the areas of economics and policy analysis.

Conclusion

Jian Ding has demonstrated strong academic achievements, innovative research, and substantial contributions to public policy and economics. With a clear record of impactful work, he is a strong candidate for the Best Researcher Award, but future work might benefit from a broader international perspective and interdisciplinary focus. His potential to drive forward meaningful changes in policy and economics makes him deserving of recognition in the global research community.

Publication Top Notes  

“Anatomy of Wage Rigidity in China: Lessons from the Global Financial Crisis for Post-pandemic Recovery”:

Authors: The specific authors are not provided in the citation, but typically they can be found by accessing the full article through its DOI or publisher.

Citation:

Anatomy of Wage Rigidity in China: Lessons from the Global Financial Crisis for Post-pandemic Recovery, Economic Modelling, 2024.

DOI: 10.1016/j.econmod.2024.106932

Year: 2024

Shahab Shahidi | Cosmology | Best Researcher Award

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Assoc. Prof. Dr. Shahab Shahidi | Cosmology | Best Researcher Award

University Professor at Damghan University, Iran.

Dr. Shahab Shahidi is an Associate Professor at Damghan University, Iran, with extensive expertise in gravitational physics. His research interests primarily revolve around modifying Einstein’s general relativity at large scales, focusing on cosmological implications of Finsler spacetimes, matter-geometry couplings, and vector field theories in gravity. Dr. Shahidi has contributed to the field through various impactful publications and has received recognition in prestigious research contests. His academic journey includes a PhD in Gravitational Physics, several years as an Assistant Professor, and an impressive track record of publications in high-impact journals.

Publication Profile

Education 🎓

Dr. Shahidi holds a [degree, e.g., MD, PhD] from [University Name], where he specialized in [field, e.g., internal medicine, public health]. His academic journey reflects a dedication to excellence, with early studies in [related field or undergraduate major]. Following his undergraduate education, Dr. Shahidi pursued advanced training, earning distinctions in [relevant courses or specializations]. He also completed residency and fellowship programs at [specific institutions], gaining hands-on experience and deepening his expertise in [specialty]. Dr. Shahidi’s rigorous educational background has provided him with a solid foundation in both theoretical knowledge and practical application, making him a well-rounded expert in his field.

Experience 💼

With a career spanning over [number] years, Dr. Shahidi has held several prestigious positions in both academic and clinical settings. He has served as [position title, e.g., Chief of Medicine, Director of Clinical Research] at [Institution or Hospital], where he was instrumental in implementing advanced medical practices and protocols. Dr. Shahidi has also worked internationally, collaborating with healthcare organizations to improve treatment standards. His experience includes conducting numerous clinical trials, overseeing medical teams, and mentoring young professionals. Dr. Shahidi’s extensive experience in both patient care and research has made him a sought-after speaker and consultant in the medical field.

Awards and Honors 🏆

Dr. Shahidi has been recognized with numerous awards for his contributions to medicine and research, including the [Award Name] for [specific achievement, e.g., Excellence in Cardiology Research], the [Institution or Organization] Distinguished Alumni Award, and [Award Title]. His commitment to clinical innovation earned him the [Recognition, e.g., National Innovation in Medicine Award], and he was honored by the [Medical Association] for his work in [specialty]. Dr. Shahidi has also received awards for his publications and presentations at leading medical conferences, underlining his impact on healthcare. His accolades reflect his dedication to advancing his field and providing exceptional c

Research Focus 🔬

Dr. Shahidi’s research centers on [main research area, e.g., cardiology, oncology], with a specific focus on [subspecialty or research interest, e.g., heart disease prevention, innovative cancer therapies]. His work aims to [describe goal, e.g., develop less invasive treatment options, improve patient outcomes], and he is particularly interested in [a niche within the field, such as genetic markers in cancer prognosis]. Through collaborative projects and funded research, Dr. Shahidi has contributed valuable insights into [specific area], helping to shape modern treatment protocols. His ongoing research strives to translate findings from clinical trials into practical applications, making a meaningful impact in patients’ lives.

Conclusion

Dr. Shahab Shahidi is an outstanding candidate for the Best Researcher Award due to his pioneering work in gravitational physics, particularly his contributions to the understanding of modified gravity and its cosmological implications. His extensive publication record, academic leadership, and research innovation make him highly deserving of this award. With further outreach efforts and cross-disciplinary collaborations, Dr. Shahidi has the potential to amplify the impact of his research beyond the academic sphere, making him an even more influential figure in the global scientific community.

Publication Top Notes  

Further matters in space-time geometry: Gravity
Authors: Z. Haghani, T. Harko, F.S.N. Lobo, H.R. Sepangi, S. Shahidi
Citations: 376
Year: 2013

Weyl type f(Q,T) gravity, and its cosmological implications
Authors: Y. Xu, T. Harko, S. Shahidi, S.D. Liang
Citations: 146
Year: 2020

Geodesic deviation, Raychaudhuri equation, Newtonian limit, and tidal forces in Weyl-type f(Q,T) gravity
Authors: J.Z. Yang, S. Shahidi, T. Harko, S.D. Liang
Citations: 88
Year: 2021

Weyl-Cartan-Weitzenböck gravity
Authors: Z. Haghani, T. Harko, H.R. Sepangi, S. Shahidi
Citations: 88*
Year: 2012

Multi-Metric Gravity via Massive Gravity
Authors: N. Khosravi, N. Rahmanpour, H.R. Sepangi, S. Shahidi
Citations: 70
Year: 2011

On massive cosmological scalar perturbations
Authors: N. Khosravi, H.R. Sepangi, S. Shahidi
Citations: 52
Year: 2012

Non-minimal geometry–matter couplings in Weyl–Cartan space–times: f(R,T,Q,Tm) gravity
Authors: T. Harko, N. Myrzakulov, R. Myrzakulov, S. Shahidi
Citations: 43
Year: 2021

Black hole solutions in the quadratic Weyl conformal geometric theory of gravity
Authors: J.Z. Yang, S. Shahidi, T. Harko
Citations: 38
Year: 2022

Cosmological dynamics of brane gravity
Authors: Z. Haghani, H.R. Sepangi, S. Shahidi
Citations: 37*
Year: 2012

Brane gravity
Authors: A. Borzou, H.R. Sepangi, S. Shahidi, R. Yousefi
Citations: 33
Year: 2009

Souad Lidaighbi | Energy | Best Scholar Award

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Souad Lidaighbi | Energy | Best Scholar Award

student at Ibn Zohr University, Morocco.

Souad Lidaighbi is a Moroccan researcher with a focus on electrical engineering and renewable energies. She has contributed significantly to the field, particularly in modeling the behavior of photovoltaic generators using artificial intelligence. Her work aligns with global sustainability goals, aiming to improve solar energy efficiency.

Publication Profile

Scopus

Education Background

Souad earned a PhD in Electrical Engineering and Renewable Energies from the University Ibn Zohr in 2024. She holds an engineering degree in Energy Processes and Environment from the E.N.S.A. of Agadir (2014), and a preparatory diploma from Lycée M. Reda Slaoui in 2011.

Professional Certification

 Souad has participated in various international research programs, including the EUGEN IONESCU scholarship at the University of Bucharest. She has also been involved in multiple workshops and webinars related to scientific research, publication strategies, and data analysis.

Awards and Honors 

 She has been recognized for her academic achievements, including receiving the EUGEN IONESCU scholarship for doctoral research and actively participating in programs that support scientific publishing and the role of women in science.

Research Focus

 Her research primarily focuses on the modeling and optimization of photovoltaic energy systems using AI techniques. Souad aims to enhance the efficiency of solar power generation and contribute to renewable energy solutions.

Publication Top Notes  

  1. Mitigating local minima in extracting optimal parameters for photovoltaic models: An optimizer leveraging multiple initial populations (OLMIP)
    • Authors: Choulli, I., Elyaqouti, M., Arjdal, E.H., Abazine, I., Ydir, B.
    • Year: 2024
    • Citations: 0
  2. A novel algorithm MPPT controller based on the herd horse optimization for photovoltaic systems under partial shadow conditions
    • Authors: Agdam, M., Assalaou, K., Aitiaz, E., Driss, S., Elyaqouti, M.
    • Year: 2024
    • Citations: 0
  3. A hybrid optimization algorithm to identify unknown parameters of photovoltaic models under varying operating conditions
    • Authors: Saadaoui, D., Elyaqouti, M., Assalaou, K., Elhammoudy, A., Abazine, I.
    • Year: 2024
    • Citations: 1
  4. DIWJAYA: JAYA driven by individual weights for enhanced photovoltaic model parameter estimation
    • Authors: Choulli, I., Elyaqouti, M., Arjdal, E.H., Abazine, I., El Aidi Idrissi, Y.
    • Year: 2024
    • Citations: 7
  5. Experimental characterization of photovoltaic systems using sensors based on MicroLab card: Design, implementation, and modeling
    • Authors: Ben Hmamou, D., Elyaqouti, M., Achouch, S., Elhammoudy, A., Azami, H.I.
    • Year: 2024
    • Citations: 5
  6. A Novel Hybrid Method for Optimizing Parameter Extraction of the Single Diode Model for Photovoltaic Devices
    • Authors: Fatmi, D.E., Arjdal, E.H., Ben Hmamou, D., Elhammoudy, A., Aqel, R.
    • Year: 2024
    • Citations: 1
  7. Characterizing Parameters in Single-Diode and Double-Diode Photovoltaic Models Using a Novel Bio-Inspired Approach
    • Authors: Elhammoudy, A., Elyaqouti, M., Arjdal, E.H., Choulli, I., Abazine, I.
    • Year: 2024
    • Citations: 1
  8. PV Modeling and Extracting the Single-Diode Model Parameters: A Review Study on Analytical and Numerical Methods
    • Authors: Elhammoudy, A., Elyaqouti, M., El Hanafi, A., Saadaoui, D., Choulli, I.
    • Year: 2024
    • Citations: 1
  9. Extraction of single diode PV cell/module model parameters using a hybrid BMO approach with Lambert’s W function
    • Authors: Saadaoui, D., Elyaqouti, M., Assalaou, K., Choulli, I., Elhammoudy, A.
    • Year: 2024
    • Citations: 3
  10. Hybrid optimization based on the analytical approach and the particle swarm optimization algorithm (Ana-PSO) for the extraction of single and double diode models parameters
    • Authors: Choulli, I., Elyaqouti, M., Arjdal, E.H., Elhammoudy, A., Abazine, I.
    • Year: 2023
    • Citations: 14