Shamim Reza |Solar Cells| Young Scientist Award

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Mr. Shamim Reza |Solar Cells| Young Scientist Award

Master’s Students.Advanced Energy Materials and Solar Cell Research Laboratory, BRUR, Bangladesh

Mr. Shamim Reza is a dedicated master’s student at the Advanced Energy Materials and Solar Cell Research Laboratory, Begum Rokeya University, Rangpur (BRUR), Bangladesh. His research focuses on advanced materials for energy applications, particularly solar cell technologies. He is passionate about contributing to renewable energy advancements through innovative material science research.

Summary:

Mr. Shamim Reza has a promising profile for the “Research for Young Scientist Award” due to his focus on advanced energy materials and solar cell research, which are vital for global sustainability goals. His mentorship of master’s students reflects his leadership and dedication to the growth of the scientific community. However, the strength of his candidacy depends on the specific details of his research outputs, such as high-impact publications, patents, or notable innovations in solar technology.

 

Professional Profiles:

Scopus

šŸŽ“ Education :

Bachelor of Science in Electrical & Electronic Engineering
Begum Rokeya University, Rangpur (BRUR)
CGPA: 3.47/4.00
February 2018 ā€“ October 2023

 

šŸ¢Ā Experience:

Assistant Researcher,Advanced Energy Materials and Solar Cell Research Laboratory, BRUR
January 2023 ā€“ Present,Conducted extensive research on perovskite solar cells, focusing on improving power conversion efficiency through optimization of transport layers. Worked under the supervision of Dr. Md. Ferdous Rahman, contributing to the development of novel inorganic materials for energy applications.

šŸ› ļøSkills:

Proficient in software such as Microsoft Office, SCAPS 1D, MATLAB, Proteus 8 Professional, Origin 2018 & 2024, Cisco Packet Tracer, SPSS, R Studio, STATA, and Adobe Photoshop. Knowledgeable in programming and tools including HTML and engineering drawing. Familiar with microprocessor 8086 and advanced energy simulation techniques.

 

Research Focus :

Design and optimization of inorganic perovskite materials for high-efficiency solar cells. Simulation and experimental analysis of transport layers in solar cell architectures. Development of lead-free, sustainable materials for photovoltaic applications.

 

šŸ”¬Awards:

Participated in a Mikrotik Router Configuration Workshop. Attended workshops on Automation Switching System & Maintenance in Industrial Work and Transformer Repairing. Actively involved as a member of the EEE Club, BRUR.

Conclusion:

Suitability: Based on the information provided, Mr. Shamim Reza appears to be a strong candidate for the award, particularly if his research has yielded tangible, high-impact results.,Key Recommendation: Strengthen his application by highlighting specific achievements (e.g., publications, awards, societal impact) and emphasizing any international recognition or collaboration.,Potential Outcomes: With an improved emphasis on accomplishments and outreach, Mr. Reza could be a competitive contender for the award.

Ā Publications:

  • Boosting efficiency above 28% using effective charge transport layer with Sr3SbI3-based novel inorganic perovskite
    DOI: 10.1039/D3RA06137J
    Year: 2023

 

  • Improving efficiency of Sr3SbI3-based novel perovskite solar cell with optimization of Hole Transport Layer (HTL)
    DOI: 10.1021/acs.energyfuels.3c04099
    Year: 2023

 

  • Rubidium-based new lead-free high-performance perovskite solar cells with SnS2 as an electron transport layer
    DOI: 10.1016/j.mtcomm.2024.108714
    Year: 2024

 

  • Tuning the Hole Transport Layer in Ca3SbI3 Absorber-Based Solar Cells to Improve Power Conversion Efficiency
    DOI: 10.1016/j.jpcs.2024.112250
    Year: 2024

 

  • Boosting the Effectiveness of a Cutting-Edge Ca3NCl3 Perovskite Solar Cell by Fine-Tuning the Hole Transport Layer
    DOI: 10.1016/j.mseb.2024.117656
    Year: 2024

 

  • A Thorough Investigation of HTL Layers to Develop and Simulate AgCdF3-Based Perovskite Solar Cells
    DOI: 10.1016/j.mseb.2024.117744
    Year: 2024

 

  • Optimization of Sr3NCl3-Based Perovskite Solar Cell Performance through the Comparison of Different Electron and Hole Transport Layers
    DOI: 10.1016/j.jpcs.2024.112386
    Year: 2024

 

Yattou El Fadili |Renewable energy| Best Researcher Award

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Ms. Yattou El Fadili |Renewable energy| Best Researcher Award

Sidi Mohamed Ben Abdellah University, Morocco

Ms. Yattou El Fadili is a distinguished academic and researcher at Sidi Mohamed Ben Abdellah University. Renowned for her contributions to [specific field or specialization], she has played a pivotal role in advancing knowledge and fostering academic excellence. Her work emphasizes [key area of expertise or research interest], and she is committed to both innovation and the dissemination of knowledge within the academic community. Ms. El Fadili continues to inspire students and peers through her dedication to education and research.

Summary:

Ms. Yattou El Fadili is a Doctoral student at the Faculty of Sciences Dhar El Mahraz, Sidi Mohamed Ben Abdellah University in Fez, Morocco. Her research interests are centered on renewable energy, wind turbine control, robust stability, and advanced control systems. Specifically, she has focused on areas such as singular systems, wireless power transmission, rectenna systems, Lyapunov stability theory, and uncertain systems. Her contributions to the field, especially in state-feedback control and controller design, demonstrate her expertise and dedication to solving complex engineering problems.

 

Professional Profiles:

Ā Google Scholar

Orcid

šŸŽ“ Education :

Yattou El Fadili earned her B.Sc. in Physics with an Electronic Option in 2019 and completed her M.Sc. in Microelectronics, Signals, and Systems in 2021, both from the Faculty of Sciences Dhar El Mahraz, Sidi Mohamed Ben Abdellah University of Fez, Morocco. She is currently pursuing a Ph.D. in the field of Computer Science, Signal, Automation, and Cognitivism at the same institution, focusing on the modeling and control of wind turbine energy conversion systems.

šŸ¢Ā Experience:

Yattou El Fadili is a Doctoral Student at the Computer Science, Signal, Automation, and Cognitivism Laboratory at the Faculty of Sciences, Dhar El Mahraz, Sidi Mohamed Ben Abdellah University, Fez, Morocco. Her research activities are centered on renewable energy, wind turbine control, and the application of advanced controller design methods, such as Lyapunov stability theory and robust stability for uncertain systems.

šŸ› ļøSkills:

Renewable Energy Systems (especially Wind Turbines),Wind Turbine Control,Robust Stability and Singular Systems,Wireless Power Transmission and Rectenna Systems,Lyapunov Stability Theory,Controller Design and State-Feedback Control,Uncertain Systems and Singular Systems

 

Research Focus :

Her research focuses on modeling and controlling wind turbine energy conversion systems, aiming to improve energy efficiency and stability through advanced mathematical techniques and intelligent control strategies. She also explores how to integrate cutting-edge technologies, such as genetic algorithms, with traditional sliding mode control and fractional calculus, to enhance the performance of renewable energy systems.

 

šŸ”¬Awards:

Presentation of the paper “Intelligent controller using genetic algorithm applied on wind energy conversion systems” at the International Conference on Intelligent Computing in Data Sciences (ICDS) in Marrakech, Morocco, October 2024.,Presentation of “An Advanced Control Law Combining Sliding Mode and Fractional Calculus for Wind Energy Conversion Systems” at the International Conference on Digital Technologies and Applications (ICDTA) in Benguerir, Morocco, August 2024.,Presentation of the paper “A novel combination of Sliding Mode, Fractional Calculus, and Genetic Algorithm to improve the performance of a controller in a wind power application” at the International Conference on Circuit, Systems, and Communication (ICCSC) in Fez, Morocco, June 2024.,Presentation of “Robust $H_{\infty}$ performance of uncertain systems based on Lyapunov functions using nonmonotonic terms” at the 10th International Conference on Systems and Control (ICSC) in Marseille, France.

 

Conclusion:

Ms. Yattou El Fadili has demonstrated outstanding potential as a researcher in the fields of renewable energy and control systems. Her ability to blend theoretical frameworks with practical applications, particularly in the areas of wind turbine control and robust stability, sets her apart as a promising candidate for the Best Researcher Award. However, to fully optimize her recognition and impact, it would be beneficial for her to focus on increasing her publication output and expanding her professional network.

Ā Publications:

  • Publication: Optimal controller design for wind turbine using sliding sector and genetic algorithms
    Authors: Y El Fadili, Y Berrada, I Boumhidi
    Journal: E3S Web of Conferences 469, 00006
    Year: 2023
    Citations: 6

 

  • Publication: Novel control strategy for the global model of wind turbine
    Authors: Y El Fadili, B Youssef, B Ismail
    Journal: International Journal of Electrical and Computer Engineering (IJECE) 14 (1)
    Year: 2024
    Citations: 5

 

  • Publication: Robust performance of uncertain system based on Lyapunov functions using nonā€“monotonic terms
    Authors: Y El Fadili, A Hmamed, B Boukili, I Boumhidi
    Conference: 2022 10th International Conference on Systems and Control (ICSC), 256-262
    Year: 2022
    Citations: 5

 

  • Publication: Improved sliding mode control law for wind power systems
    Authors: Y El Fadili, Y Berrada, I Boumhidi
    Journal: International Journal of Dynamics and Control, 1-12
    Year: 2024
    Citations: 4

 

  • Publication: A novel combination of Sliding Mode, Fractional Calculus, and Genetic Algorithm to improve the performance of a controller in a wind power application
    Authors: Y El Fadili, B Youssef, B Ismail
    Conference: 2024 International Conference on Circuit, Systems and Communication (ICCSC), 1-6
    Year: 2024
    Citations: 3

 

  • Publication: An Advanced Control Law Combining Sliding Mode and Fractional Calculus for Wind Energy Conversion Systems
    Authors: Y El Fadili, Y Berrada, I Boumhidi
    Conference: International Conference on Digital Technologies and Applications, 444-453
    Year: 2024
    Citations: 3

 

  • Publication: Robust Stateā€Feedback Controller of Uncertain Systems Based on Nonā€Monotonic Approach
    Authors: Y El Fadili, B Boukili, M N’Diaye, I Boumhidi
    Journal: International Journal of Adaptive Control and Signal Processing
    Year: 2024
    Citations: 2

 

  • Publication: New design of an intelligent electromagnetic torque controller based on neural network and fractional calculus: variable-speed wind energy systems application
    Authors: ELF Yattou, B Ismail
    Journal: e-Prime – Advances in Electrical Engineering, Electronics and Energy
    Year: 2024

 

  • Publication: e-Prime-Advances in Electrical Engineering, Electronics and Energy
    Authors: Y El Fadili, I Boumhidi
    Year: 2024

 

ANEES UR REHMAN|solar cell| Best Researcher Award

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Ā Dr.ANEES UR REHMAN|solar cell| Best Researcher Award

Ā Dr. ANEES UR REHMAN ,The University of Chicago, China

Dr. Anees Ur Rehman is a distinguished academic affiliated with The University of Chicago, China. His expertise spans several fields, with significant contributions to research and education. As a dedicated scholar, Dr. Rehman has actively participated in numerous research projects, publications, and academic initiatives. His work is recognized for its impact on both the academic community and broader scientific disciplines. Through his dedication to innovation and knowledge-sharing, Dr. Rehman continues to shape future generations of scholars and professionals in his field.

Summary:

Dr. Anees ur Rehmanā€™s background showcases a strong academic and research trajectory. His expertise in solar energy, nano-materials, and renewable energy systems has been applied both in theoretical and practical projects, contributing to the advancement of sustainable technologies. His leadership roles and multiple recognitions in national exhibitions speak to his excellence in research and mentorship. His work addresses critical challenges in energy sustainability, making him a valuable contributor to the field.

Professional Profiles:

šŸŽ“ Education :

Engr. Dr. Anees Ur Rehman holds a Doctor of Philosophy (PhD) in Electrical Engineering from Sarhad University of Science and Information Technology (SUIT), Peshawar, Pakistan, completed in 2021. His dissertation focused on “Modeling, Fabrication, and Characterization of Nano-materials Based Dye Sensitized Solar Cell (DSSC) for Long Term Stability,” under the supervision of Dr. Mahmood Khan, an IEEE Fellow from the University of South Australia. Dr. Anees also holds a Master of Science (MS) in Electrical Engineering from the University of Engineering and Technology, Peshawar, completed in 2013. His research at the master’s level involved the development of Dye-Sensitized Solar Cells, comparing different cathode materials. He earned his Bachelor of Science (BS) in Electrical Engineering from the same university in 2008, with a focus on solar-powered smart irrigation systems.

šŸ¢Ā Experience:

Dr. Anees currently serves as an Associate Professor in the Electrical Engineering Department at Sarhad University of Science and IT, Peshawar, a role he has held since August 2022. Prior to this, he worked as an Assistant Professor at the same university from 2013 to 2022 and as a Lecturer from 2009 to 2013. His academic leadership roles include Chairing the Electrical Engineering Department and Convener of the Board of Studies. Additionally, Dr. Anees has experience as a visiting lecturer at the Government College of Technology, Peshawar, affiliated with UET Peshawar, during the 2008-2009 academic year.

šŸ› ļøSkills:

Dr. Anees specializes in the development of nano-technology-based solar cells and renewable energy systems. His technical expertise includes Solar Cell Technology, High Voltage Engineering, Power System Analysis, and Digital Logic Design. He has a robust background in power generation and distribution, having taught courses on Power System Protection, Power System Transmission & Distribution, and Electromagnetic Field Theory. Dr. Anees is also skilled in project coordination and academic leadership, with extensive experience in program coordination, internal evaluation, and performance enhancement planning.

šŸ”¬Awards:

Throughout his academic career, Dr. Anees has received several awards and recognition for his contributions. He has supervised projects that have won prestigious awards, such as the 1st position in the EMCOT Exhibition in 2013 and the 3rd position in the Swat Expo in 2014. He also won the Best Product Award in a Project Exhibition arranged by the Directorate of Science and Technology KPK in March 2013. Additionally, Dr. Anees has actively participated in multiple exhibitions like DICE Connect, organized by the Higher Education Commission Pakistan and The British Council. His academic contributions include poster presentations at renowned symposia, including the i-Energy Symposium at CECOS University in 2012.

Research Focus:

Dr. Anees’ research primarily focuses on renewable energy resources, particularly nano-technology-based solar cells. His work includes the study of the plasmonic effect in perovskite solar cells, thin-film solar cell efficiency enhancement, and energy management systems for microgrids. He has also supervised research projects on hollow material-based electron transport layers for solar cells and the optimization of distributed energy generation. His extensive research contributions extend to funded projects, such as the development of UAVs for crop spraying, fleet management systems, and gas leakage monitoring systems using Arduino and Zigbee technologies.

Conclusion:

Dr. Anees ur Rehman is a highly deserving candidate for the Best Researcher Award. His educational qualifications, leadership in academia, and significant contributions to renewable energy research highlight his dedication to advancing knowledge and technology. To further enhance his candidacy for future awards, increasing his international research collaborations and exploring more interdisciplinary projects could be beneficial. Overall, his achievements align well with the award criteria, making him a strong contender.

Publications :

  • Title: “Analyzing the compatibility and optimization of organic and Al2CdX4 chalcogenides materials as charge transport layers for planar and inverted MASnI3 perovskites”
    Authors: Abbasi, M.Z., Rehman, A.U., Khan, Z., Rehman, O.U., Saeed, M.A.
    Source: Optical Materials
    Year: 2024
    Citations: 0

 

  • Title: “Optimization of Hollow Materials-Based Electron Transport Layer for Enhanced Performance of Perovskite Solar Cell”
    Authors: Rehman, A., Rehman, A.U., Aslam, M., Muhammad, N., Saeed, M.A.
    Source: Plasmonics
    Year: 2024
    Citations: 0

 

  • Title: “Enhanced Absorption Performance of Dye-Sensitized Solar Cell with Composite Materials and Bilayer Structure of Nanorods and Nanospheres”
    Authors: Rehman, A.U., Ullah, N., Saeed, M.A., Khalil, U.K.
    Source: Metals
    Year: 2022
    Citations: 6

 

  • Title: “Optical Transmission Plasmonic Color Filter with Wider Color Gamut Based on X-Shaped Nanostructure”
    Authors: Shafiq, R., Khan, A.D., Al-Harbi, F.F., Alibakhshikenari, M., Dalarsson, M.
    Source: Photonics
    Year: 2022
    Citations: 5

 

  • Title: “A theoretical study of broadband extraordinary optical transmission in gold plasmonic square nanohole arrays and its application on refractive index sensor”
    Authors: Shafiq, R., Iqbal, J., Khan, A.D., Rehman, A.U.
    Source: Optical and Quantum Electronics
    Year: 2022
    Citations: 5

 

  • Title: “Optical absorption modeling of bilayer photoanode based on Cu@TiO2 plasmonic dye sensitized solar cells towards photovoltaic applications”
    Authors: Rehman, Z.U., Ali, S., Aslam, M., Shah, S.K., Batool, S.
    Source: Optical and Quantum Electronics
    Year: 2021
    Citations: 5

 

  • Title: “The effect of plasmonic multilayered photoanode structures on the absorption of dye-sensitized solar cells”
    Authors: Rehman, A.U., Khan, M., Khan, A.D., Khan, S., Imran, M.
    Source: Japanese Journal of Applied Physics
    Year: 2021
    Citations: 6

 

  • Title: “Enhancing the light absorption in dye-sensitized solar cell by using bilayer composite materials based photo-anode”
    Authors: Rehman, A.U., Aslam, M., Shahid, I., Batool, S., Khan, M.
    Source: Optics Communications
    Year: 2020
    Citations: 18

 

  • Title: “Enhancing the Photovoltaic Performance of Solid-State Dye-Sensitized Solar Cells with Composite Materials and Luminescent Down-Shifting”
    Authors: Rehman, A.U., Aslam, M., Khan, M., Iqbal, M.A., Ahmed, S.
    Source: Journal of Electronic Materials
    Year: 2020
    Citations: 10

 

  • Title: “Comparison of six different methods of Weibull distribution for wind power assessment: A case study for a site in the Northern region of Pakistan”
    Authors: Khalid Saeed, M., Salam, A., Rehman, A.U., Abid Saeed, M.
    Source: Sustainable Energy Technologies and Assessments
    Year: 2019
    Citations: 64