Sid-ali Blaifi | Photovoltaic | Excellence in Research

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Dr. Sid-ali Blaifi | Photovoltaic | Excellence in Research

Lecturer, University of khemis Meliana, Algeria

Sid-ali BLAIFI is a PhD holder in Electrical Engineering, specializing in the control, modeling, and monitoring of energy storage systems. He currently works at the Research Laboratory of Electrical Engineering and Automatics (LREA), University of Mรฉdรฉa, Algeria. His research interests encompass renewable energy, particularly photovoltaic systems, energy storage, and advanced control strategies. Sid-ali has made significant contributions to improving battery modeling, real-time monitoring systems, and optimizing energy systems with machine learning techniques. He is a prolific researcher with numerous publications in high-impact journals. His innovative approaches are highly regarded in the fields of energy storage and renewable energy technologies. ๐ŸŒฑโšก

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Education

Sid-ali BLAIFI earned his PhD in Electrical Engineering with a focus on Automatic Systems from the University of Mรฉdรฉa, Algeria. His doctoral research delved into advanced control strategies for energy storage systems, particularly batteries in photovoltaic applications. His Masterโ€™s project applied Fuzzy-based Direct Torque Control (DTC) to induction machines, which was experimentally validated on a TMS320F2812 DSP board. Over the years, Sid-ali has consistently improved his expertise in energy storage systems, optimization algorithms, and machine learning techniques, positioning him as an expert in the renewable energy field. ๐ŸŽ“๐Ÿ“š

Experience

Sid-ali has extensive experience in energy storage and control systems, gained through both academic and research positions. He developed a robust charge controller for batteries in photovoltaic systems and contributed to the modeling of energy storage systems. He also built a real-time battery monitoring system using LabVIEW. His work on battery degradation and accelerated test procedures for photovoltaic and vehicular applications has been widely recognized. Post-PhD, Sid-ali applied machine learning to optimize control systems like Maximum Power Point Tracking (MPPT) in photovoltaic systems. His proficiency spans MATLAB/Simulink, LabVIEW, PSIM, and other tools used in energy systems research. ๐Ÿ’ผ๐Ÿ”ฌ

Research Focus

Sid-ali BLAIFIโ€™s research primarily focuses on energy storage systems, particularly for renewable energy applications like photovoltaics and electric vehicles. He has worked extensively on dynamic modeling of batteries using Genetic Algorithms and Levenberg-Marquardt optimization, improving real-time battery monitoring systems. His research also integrates machine learning techniques with energy management systems, such as applying fuzzy logic and model trees for MPPT in PV systems. Additionally, he is developing microgrid control strategies using machine learning to enhance power sharing in distributed generation systems. His work is crucial in optimizing energy systems for efficiency and sustainability. ๐Ÿ”‹๐ŸŒž๐Ÿค–

Publication Top Notes

  1. An enhanced dynamic model of battery using genetic algorithm suitable for photovoltaic applications ๐ŸŒ๐Ÿ”‹
  2. M5P model tree based fast fuzzy maximum power point tracker ๐ŸŒž๐Ÿ’ก
  3. An enhanced dynamic modeling of PV module using Levenberg-Marquardt algorithm ๐ŸŒž๐Ÿ”ง
  4. Monitoring and enhanced dynamic modeling of battery by genetic algorithm using LabVIEW applied in photovoltaic system โšก๐Ÿ’ป
  5. Improved model and simulation tool for dynamic SOH estimation and life prediction of Batteries used in PV systems ๐Ÿ”‹๐Ÿ”
  6. An improved dynamic battery model suitable for photovoltaic applications ๐ŸŒ…๐Ÿ”‹
  7. Energy Storage and Photovoltaic Systems ๐ŸŒž๐Ÿ”‹
  8. Static and Dynamic Photovoltaic Cell/Module Parameters Identification ๐ŸŒž๐Ÿ“Š
  9. Contribution to the development of a robust charge controller of a stationary battery for photovoltaic applications ๐Ÿ”‹๐Ÿ”ง

Frederic Hermann Emakoua | Photovoltaic Energy | Best Innovation Award

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Mr Frederic Hermann Emakoua | Photovoltaic Energy | Best Innovation Award

Phd Student, UNIVERSITY OF YAOUNDE 1, Cameroon

Hermann Frรฉdรฉric Emakoua is a dedicated Cameroonian researcher and PhD student at the University of Yaoundรฉ I, specializing in electronics and renewable energy. Born and raised in Essomba, Yaoundรฉ, he has cultivated a strong academic background, achieving multiple degrees in physics and engineering. Hermann is passionate about innovation in photovoltaic technology, particularly through the integration of advanced systems. Outside of academia, he is an accomplished athlete, with a history of success in judo and wrestling, reflecting his commitment to discipline and teamwork. His interests extend to music and tourism, showcasing his well-rounded personality. Hermann actively engages in the research community, participating in conferences to share insights and foster collaboration.

Profile

Google Scholar

Strengths for the Award

  1. Innovative Research Focus:
    • Hermannโ€™s research on “Amplification of Very Low Input Voltages of PV Panels Using a Duffing Oscillator” addresses a critical challenge in photovoltaic technology. By exploring non-linear systems for energy amplification, his work contributes to innovative solutions in renewable energy, an area of increasing global importance.
  2. Solid Academic Foundation:
    • With a comprehensive academic background in physics and electrical engineering, Hermann possesses the theoretical knowledge necessary for pioneering research. His educational journey, culminating in his current PhD studies, demonstrates his dedication to mastering complex concepts.
  3. Practical Skills:
    • His skills in the design and production of electronic systems and electrical systems position him to implement theoretical findings into practical applications. This hands-on experience is crucial for innovation, as it bridges the gap between research and real-world solutions.
  4. Technical Proficiency:
    • Hermannโ€™s familiarity with a variety of design and simulation software (e.g., NI MULTISIM, PROTEUS, CST) enhances his ability to develop and test innovative concepts effectively. This technical expertise is vital for creating and refining prototypes in his research.
  5. Engagement in Professional Development:
    • Participation in conferences like ACP2021 indicates his commitment to sharing his findings and learning from others in the field. This engagement fosters collaboration and further innovation through the exchange of ideas.

Areas for Improvement

  1. Enhanced Publication Output:
    • While Hermann has made a significant contribution with his publication, increasing the number of publications could enhance his visibility in the research community. Regularly sharing findings can establish him as a thought leader in his area of study.
  2. Language Skills Development:
    • Improving his English proficiency could expand his ability to access international research, communicate findings, and collaborate with a broader audience. This skill is particularly valuable in global research settings.
  3. Broader Collaboration:
    • Engaging with interdisciplinary teams could lead to new insights and approaches in his work. Collaborations with experts from different fields could enhance the innovative aspects of his research.

Education

Hermann Frรฉdรฉric Emakoua’s educational journey is marked by a commitment to excellence in physics and engineering. He has been a doctoral student at the University of Yaoundรฉ I since 2015, following a Master II in Electronics, Electrotechnics, and Automation (2013-2014) from the same institution. Prior to that, he completed his Master 1 in Physics with a focus on Electronics, Electrotechnics, and Automation in 2012-2013. Hermann also holds a Bachelor’s degree in Physics, obtained at the University of Douala in 2011-2012. His earlier education includes part-time studies in telecommunications and networks at the IUG Institute of Douala. He began his academic career with a Baccalaureate in Electricity from Lycรฉe technique de Bafoussam. With a strong foundation in both theoretical and practical aspects of science and engineering, Hermann is well-equipped to tackle complex challenges in his research area.

Experienceย 

Hermann Frรฉdรฉric Emakoua has accumulated diverse experiences that enhance his academic and professional profile. As a doctoral student at the University of Yaoundรฉ I, he has engaged in research focused on photovoltaic energy systems, particularly in amplifying low input voltages using innovative approaches like the Duffing Oscillator. His training includes hands-on experiences, such as working with single-phase and three-phase generators, and instrumentation for generator sets. Additionally, he has undergone part-time training in telecommunications systems, including video surveillance and signal processing. Hermann’s practical skills are complemented by his proficiency in design and simulation software, which he applies to his research projects. His participation in the Second African Conference on Fundamental and Applied Physics in 2021 further demonstrates his commitment to advancing knowledge in his field. Hermann’s blend of theoretical knowledge and practical application positions him as a promising researcher in electronics and renewable energy.

Research Focus

Hermann Frรฉdรฉric Emakouaโ€™s research focus centers on advancing photovoltaic technology, specifically the amplification of very low input voltages using a Duffing oscillator. This innovative approach aims to enhance the efficiency of solar panels, addressing critical challenges in renewable energy utilization. Hermannโ€™s work seeks to improve energy conversion processes, making solar energy systems more effective and accessible. By integrating principles of non-linear dynamics with practical engineering, he explores new avenues for optimizing the performance of photovoltaic panels. His interest in electrical systems design complements his research, allowing him to investigate practical applications of his findings. Hermannโ€™s participation in conferences, such as the Second African Conference on Fundamental and Applied Physics, underscores his commitment to sharing insights and collaborating with peers in the field. Overall, his research contributes significantly to the ongoing pursuit of sustainable energy solutions, aligning with global efforts to enhance renewable energy technologies.

Publication Top Notes

  • Amplification of Very Low Input Voltages of PV Panels Using a Duffing Oscillator ๐ŸŒž๐Ÿ”‹

Conclusion

Hermann Frรฉdรฉric Emakoua demonstrates strong potential as a candidate for the Best Innovation Award through his innovative approach to photovoltaic energy. His research effectively addresses key challenges in the field and reflects a commitment to practical solutions. By focusing on improving his publication record and language skills, as well as seeking interdisciplinary collaborations, he can further elevate his impact in the academic and research communities. Overall, his dedication to innovation and development in renewable energy positions him as a promising researcher worthy of recognition.

 

 

Ganesh Datt Sharma | Solar Cells | Best Researcher Award

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Prof Dr Ganesh Datt Sharma | Solar Cells | Best Researcher Award

Professor, The LNM Institute of Information Technology, India

Prof. Ganesh Datt Sharma is an esteemed Emeritus Professor at The LNM Institute of Information Technology (LNMIIT), Jaipur, India. With a career spanning nearly four decades, he has made significant contributions to the fields of organic electronics and optoelectronic devices. His research primarily focuses on organic solar cells and related materials. Prof. Sharma’s commitment to academia is reflected in his mentorship of numerous Ph.D. students, many of whom have pursued research globally. He has established extensive international collaborations, enhancing the impact of his work on a global scale. An active member of various scientific committees, he is dedicated to advancing research in renewable energy technologies.

Profile

Scopus

Strengths for the Award

  1. Extensive Academic Background: Prof. Sharma holds a Ph.D. from IIT Delhi in Organic Semiconducting Materials and has a strong foundational education in Physics. His credentials reflect a deep understanding of the field.
  2. Significant Research Contributions: With over 11,300 citations and an h-index of 52, Prof. Sharma’s work is widely recognized in the field of organic electronics and photovoltaics. His publications in reputable journals highlight his active engagement in cutting-edge research.
  3. Diverse Research Interests: His focus on organic solar cells, polymers, and nanomaterials aligns with current trends in sustainable energy solutions, showcasing his relevance in the field.
  4. International Collaboration: Prof. Sharma has successfully collaborated with numerous prestigious institutions worldwide, including those in Europe, North America, and Asia, enhancing the global impact of his research.
  5. Mentorship and Ph.D. Guidance: He has supervised 18 Ph.D. students, many of whom are pursuing advanced research internationally, demonstrating his commitment to fostering the next generation of scientists.
  6. Awards and Recognitions: His accolades, including the Early Career Research Award and various fellowships, underscore his contributions to the scientific community.
  7. Leadership Roles: As Dean of Research and Development at LNMIIT and a member of multiple scientific advisory committees, he exhibits strong leadership and organizational skills.

Areas for Improvement

  1. Broader Public Engagement: While Prof. Sharma’s research is highly specialized, increasing efforts in public outreach and education about the importance of organic solar cells could enhance community engagement and awareness.
  2. Interdisciplinary Collaborations: Exploring interdisciplinary collaborations beyond physics, such as with environmental sciences and policy-making, could broaden the applicability and impact of his research.
  3. Increased Visibility: Although his publications are well-cited, developing strategies for more visible outreach, such as public lectures or popular science articles, could further elevate his profile in the broader scientific community.
  4. Grant Acquisition: While he has successfully completed numerous projects, expanding efforts to secure larger grants or funding for innovative projects could facilitate even more ambitious research initiatives.

Educationย 

Prof. Ganesh Datt Sharma completed his Ph.D. in Organic Semiconducting Materials at the Indian Institute of Technology, Delhi, in 1985. Prior to that, he earned his M.Sc. in Physics from HNB University, Srinagar, Uttaranchal, in 1979, where he received a gold medal for his academic excellence. He also holds a B.Sc. in Physics from the same university, awarded in 1977. His rigorous education provided a strong foundation for his research career, allowing him to explore the fundamental photo-physics of next-generation materials. His academic journey has been marked by significant achievements, including prestigious fellowships during his doctoral studies, which have shaped his expertise and research focus in organic electronics.

Experience

Prof. Sharma has an extensive academic and research career, currently serving as Emeritus Professor at LNMIIT, Jaipur, since August 2022. He previously held various positions at JNV University, Jodhpur, including Professor and Dean of Research and Development. His tenure at JNV University spanned from 1985 to 2015, during which he contributed significantly to the Physics Department. He has also been a Visiting Scientist at the State University of New Jersey, USA, where he worked in the Department of Electrical and Computer Science. His leadership in research is underscored by his role as a chairman and expert member in multiple project review committees for organizations like DRDO and the European Commission. Prof. Sharma has successfully led numerous national and international research projects, fostering collaborations that enhance the quality and impact of his research.

Awards and Honors

Prof. Ganesh Datt Sharma has received numerous accolades throughout his illustrious career. He was honored with the Early Career Research Award from SERB-DST, Government of India, in 1989, as well as the Young Scientist Award from CSIR, New Delhi, in the same year. His academic excellence was recognized with a gold medal for his M.Sc. in Physics from HNB University. Additionally, he was awarded the CSIR SRF Fellowship during his Ph.D. at IIT Delhi. Prof. Sharma has also received the BOYSCAST Fellowship from DST, enabling research opportunities in the USA. His contributions to scientific committees include chairing the Project Review Committee for DRDO from 2018 to 2022 and serving as an expert member for various international science and technology committees. His extensive involvement in editorial boards of leading journals further exemplifies his commitment to advancing scientific research.

Research Focus

Prof. Ganesh Datt Sharma’s research focuses on organic solar cells, polymers, and various organic electronic materials. His work aims to understand the fundamental photo-physics of next-generation photoactive materials, including conjugated polymers and small molecules. He specializes in developing efficient photovoltaic devices and dye-sensitized solar cells, contributing to advancements in renewable energy technologies. Prof. Sharma’s research interests encompass charge transport, transient optoelectronic properties, and wearable sensors, reflecting a comprehensive approach to addressing contemporary energy challenges. He has successfully completed numerous projects funded by national agencies such as DST, CSIR, and ISRO, and has ongoing international collaborations across multiple countries. His research not only contributes to theoretical knowledge but also aims to develop practical solutions for energy conversion and storage, promoting sustainable practices in technology.

Publication Top Notes

  • An Asymmetric Coumarin-Anthracene Conjugate as Efficient Fullerene-Free Acceptor for Organic Solar Cells ๐ŸŒž
  • All-Small-Molecule Ternary Organic Solar Cell with 16.35% Efficiency Enabled by Chlorinated Terminal Units ๐ŸŒฑ
  • Exploiting Mechanism of Enhanced Charge Transfer in Ternary Organic Solar Cells at Low Energy Loss โšก
  • Halogenation Strategy: Simple Wide Band Gap Nonfullerene Acceptors with the BODIPY-Thiophene-Backboned Polymer Donor for Enhanced Outdoor and Indoor Photovoltaics โ˜€๏ธ
  • Advancing Multifunctional Semitransparent Organic Solar Cells through Strategic Optical Layer Integration ๐Ÿ—๏ธ
  • Small Molecular Donor Materials Based on ฮฒ-ฮฒ-Bridged BODIPY Dimers with a Triphenylamine or Carbazole Unit for Efficient Organic Solar Cells ๐Ÿ“ˆ
  • Effect of Meso- or ฮฒ-Functionalization of Porphyrins on the Photovoltaic Properties of Organic Solar Cells ๐Ÿ’ก
  • Solution-Processed Co3O4-Based Hole Transport Layer for Nonfullerene Organic Solar Cells ๐Ÿงช
  • Organic Solar Cells Based on Non-Fullerene Low Molecular Weight Organic Semiconductor Molecules ๐Ÿ“š
  • Structural and Optical Phenomena of Thermally Treated Fullerene-Based Nanocomposites with Metal Nanoparticles for Sensing Applications ๐Ÿงฌ

Conclusion

Prof. Ganesh Datt Sharma’s impressive academic background, substantial research contributions, and commitment to mentorship position him as an exceptional candidate for the Best Researcher Award. His strengths in research and collaboration are complemented by opportunities for growth in public engagement and interdisciplinary work. Recognizing his contributions through this award would not only honor his achievements but also inspire future researchers in the field of organic electronics and renewable energy.