Ms. Jamshina Sanam P.K | Optical Glow Awards | Best Scholar Award

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Ms. Jamshina Sanam P.K | Optical Glow Awards | Best Scholar Award

Ms. Jamshina Sanam P.K, University of Calicut, India

Jamshina Sanam P.K is a WISE-Ph.D. fellow (DST) in the Department of Physics at the University of Calicut, India. With a strong background in material science, she has published fifteen research papers in reputed academic journals and has four years of teaching experience. She has received multiple accolades, including the Best Poster Award at the 68th DAE Solid State Physics Symposium (DAESSP-2024) organized by Bhabha Atomic Research Centre (BARC), Mumbai, and the Best Research Paper Award and Oral Presentation Award at the International Conference on Advanced Materials for Sustainability (ICAMS-2023) at the University of Calicut. Her research focuses on thermoelectricity in delafossite materials, known for their ability to generate point defects and enhance conductivity, making them valuable as transparent conducting oxides. She is particularly interested in the effects of magnetic ion doping on spin dynamics and strategies to improve the Seebeck coefficient, contributing to advancements in waste heat recovery, portable energy generation, space exploration, and sustainable energy solutions. Holding an M.Phil. in Physics (2020) from the University of Calicut, as well as an M.Sc. and B.Sc. in Physics from Farook College, she has also qualified the State Eligibility Test (SET) in Physical Science. Passionate about research and education, she is dedicated to making complex scientific concepts accessible while inspiring students to develop critical thinking skills.

Professional Profile:

SCOPUS

Summary of Suitability for Best Scholar Award conclusion

Dr. Jamshina Sanam P.K. is a dedicated researcher in material science, currently a WISE-Ph.D. fellow (DST) at the University of Calicut. With a strong academic background, she has published fifteen research papers in esteemed journals and has four years of teaching experience. Her research focuses on thermoelectricity, particularly in delafossite materials and their applications in waste heat recovery, green energy, and space exploration. She has received multiple accolades, including the Best Poster Award at DAESSP-2024 and the Best Research Paper Award at ICAMS-2023. Her expertise, impactful research contributions, and recognition in the field make her a strong candidate for the Research for Best Scholar Award.

🎓 Education

  • 📍 Ph.D. (Ongoing) – Department of Physics, University of Calicut
  • 📍 M.Phil. in Physics (2020) – Department of Physics, University of Calicut
  • 📍 B.Ed. in Physical Science (2014) – Farook Training College, Kozhikode
  • 📍 M.Sc. in Physics (2009) – Farook College, Kozhikode
  • 📍 B.Sc. in Physics (2005) – Farook College, Kozhikode
  • 📜 State Eligibility Test (SET) – Physical Science (2014)

💼 Work Experience

  • 👩‍🏫 Four years of teaching experience in the field of Material Science

🏆 Achievements, Awards & Honors

  • 🎖️ WISE-Ph.D. Fellowship (DST)
  • 🏅 Best Poster Award – 68th DAE Solid State Physics Symposium (DAESSP-2024), organized by Bhabha Atomic Research Centre (BARC), Mumbai (December 18-22, 2024)
  • 🏆 Best Research Paper Award & Oral Presentation Award – International Conference on Advanced Material for Sustainability (ICAMS-2023), organized by the School of Physical Sciences, University of Calicut (December 21-23, 2023)
  • 📝 Published 15 research papers in highly reputable academic journals, showcasing expertise in Material Science

Publication Top Notes:

Tuning of photoluminescence properties: Impact of Pr-doping in SrTiO3 crystallites

Raman spectroscopic investigation and thermoelectric studies of defect-induced Mg-doped delafossite thin film

Mrs. Parami ama Shakya | Structural Materials Awards | Best Researcher Award

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Mrs. Parami ama Shakya | Structural Materials Awards | Best Researcher Award  

Mrs. Parami ama Shakya, University of Kelaniya, Sri Lanka

Merigngnage Dona Parami Ama Shakya, is a dedicated physicist currently pursuing an M. Phil in Physics at the University of Kelaniya, where she previously earned her B.Sc. Honours in Physics, graduating with a Second Upper Class GPA of 3.57. Parami has gained valuable experience as a Temporary Demonstrator and Temporary Research Assistant at the same university, and she is now a physicist in the Sri Lanka Scientific Service. Her research interests focus on dye-sensitized solar cells, with multiple publications showcasing her work on copper thin-film photoanodes and natural dye co-sensitization. Parami’s strong analytical skills and innovative approach to problem-solving are complemented by her proficiency in project management and IT literacy. She is actively engaged in the academic community, sharing her findings through conferences and publications, including contributions to renowned journals and international conferences. Outside her research, she is known for her creativity and ability to navigate complex challenges in her field. Parami is passionate about advancing renewable energy technologies and contributing to sustainable scientific practices.

Professional Profile:

ORCID

Summary of Suitability for the Best Researcher Award

Merigngnage Dona Parami Ama Shakya demonstrates exceptional qualifications for the Best Researcher Award through her impressive educational background, relevant research experience, and significant contributions to the field of Physics.

🎓 Education

  • M. Phil in Physics
    University of Kelaniya
  • B.Sc. Honours in Physics (2017-2021)
    University of Kelaniya
    Course Description: Physics, Pure Mathematics, Electronics
    Class: Second Upper Class | GPA: 3.57
  • G.C.E. Advanced Level Examination (2016)
    Physical Science Stream
  • G.C.E. Ordinary Level Examination (2012)

💼 Work Experience

  • Physicist (December 2024 – Present)
    Sri Lanka Scientific Service
  • Temporary Research Assistant (December 2022 – October 2024)
    Department of Physics and Electronics, University of Kelaniya
  • Temporary Demonstrator (August 2022 – December 2022)
    Department of Physics and Electronics, University of Kelaniya

🏆 Achievements & Publications

  • Published Works:
    • “A Study on Cu Thin-Film Electroplated TiO2 Photoanodes for Applications in Natural Dye-Sensitized Solar Cells” – Crystals (29th December 2024) 🌟
    • “Co-sensitization Performance of Dye Sensitized Solar Cell Based on Combination of Natural Dyes Extracted from Grapes and Green Tea” – International Conference on Applied and Pure Science (11th October 2024) 🍇
    • “Temperature Effect on Wettability Properties of Electrodeposited n-Type Cuprous Oxide” – International Conference on Applied and Pure Science (11th October 2024) 🌡️
    • “Improvement of dye sensitized solar cell performance using different particle sizes of double layered TiO2 photoanodes” – 20th International Postgraduate Research Conference (29th November 2024) 🔋

Publication Top Notes:

A Study on Cu Thin-Film Electroplated TiO<sub>2</sub> Photoanodes for Applications in Natural Dye-Sensitized Solar Cells

Dr. Marco Favetta | Radiation Physics Awards | Best Researcher Award

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Dr. Marco Favetta | Radiation Physics Awards | Best Researcher Award 

Dr. Marco Favetta, ASP Trapani, Italy

Marco Favetta is an accomplished medical physicist currently serving as the Head of the Medical Physics and Trapani Radiotherapy Departmental Unit at A.S.P. Trapani since 2024. he has built a robust career in medical physics, with prior roles as Dirigent Physicist at the University Hospital Consortium Company Polyclinic of Bari and ASST-Lodi. Marco obtained his Diploma of Specialization in Medical Physics from the University of Catania with top honors, and he holds a PhD in Physics focused on medical applications. He has extensive teaching experience, having lectured on medical physics and applied physics at the University of Catania. Marco is also recognized for his contributions to research, including collaboration with ELI Beamlines in Prague, where he led projects in innovative radiotherapy technologies. His professional expertise extends to HR and economic management within healthcare, showcasing his managerial skills in resolving complex issues and fostering collaboration among multidisciplinary teams. Marco is dedicated to advancing medical physics through research, education, and innovation, making significant contributions to the field and mentoring future professionals.

Professional Profile:

ORCID

Summary of Suitability for the Best Researcher Award

Based on the impressive qualifications and contributions of Marco Favetta, I believe he is exceptionally suitable for the Best Researcher Award. His extensive research background, particularly in the field of Medical Physics and laser-driven technologies, demonstrates a strong commitment to advancing knowledge and innovation in photonics and radiation therapy.

Education 🎓

  • Specialization in Medical Physics
    University of Catania
    Date: 15 July 2014
    Grade: 70/70
    Thesis: “Special Techniques of Radiotherapy: from planning to treatment verifications”
  • PhD in Physics, Medical Physics
    University of Salento
    Date: 2 May 2007 – 30 April 2010
    Thesis: “MR image analysis for the early diagnosis of Alzheimer’s dementia: identification of a template base for the hippocampus area”
  • Degree in Physics
    University of Catania
    Date: 20 December 2006
    Grade: 110/110
    Thesis: “Detection of neutrinos of very high energy: study of underwater acoustic background noise”

Work Experience 💼

  • Head of Medical Physics and Trapani Radiotherapy Departmental Unit
    A.S.P. Trapani
    Date: 2024 – Present
  • Dirigent Physicist, Medical Physics
    University Hospital Consortium Company Polyclinic of Bari
    Date: 2017 – 2024
  • Dirigent Physicist, Medical Physics (on leave)
    A.S.P. Siracusa
    Date: 2020 – 2021
  • Dirigent Physicist, Medical Physics
    ASST-Lodi
    Date: 2015 – 2017
  • Senior Post Doc
    IMM-CNR, Catania, Italy
    Date: 2014 – 2015
  • Scientific Associate
    CNR – IMM
    Date: 2013 – 2015
  • Junior Post Doc
    INFN, National Laboratories of the South, Catania, Italy
    Date: 2011 – 2012
  • Graduate School of Medical Physics
    University of Catania, Italy
    Date: 2010 – 2014
  • Scientific Associate
    INFN
    Date: 2005 – 2014

Achievements 🏆

  • Notable managerial skills demonstrated at the Polyclinic of Bari, with recognition from the head of the U.O.S.D. of Health Physics.
  • Collaboration with the ELI Beamlines research center in Prague, coordinating experiments and overseeing a diverse team.
  • Developed international collaborations and networks in oncology, dosimetry, and X-ray imaging.
  • Participated in the Megatalenti project, presenting a business idea and creating a corresponding business plan.

Awards and Honors 🥇

  • Recognized for dedication and passion for research and innovation.
  • Solid reference point for colleagues, demonstrating leadership and the ability to inspire.

Publication Top Notes:

Characterization of kHz Repetition Rate Laser-Driven Electron Beams by an Inhomogeneous Field Dipole Magnet Spectrometer

BIOESOnet: A Tool for the Generation of Personalized Human Metabolic Pathways from 23andMe Exome Data

Silicon nitride surfaces as active substrate for electrical DNA biosensors

Development of Si-based electrical biosensors: Simulations and first experimental results

ELIMED: a new hadron therapy concept based on laser driven ion beams

Mrs. Sara Caruncho-Pérez | Electrochemical Awards | Best Researcher Award

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Mrs. Sara Caruncho-Pérez | Electrochemical Awards | Best Researcher Award 

Mrs. Sara Caruncho-Pérez, University of Vigo, Spain

Sara Caruncho Pérez is an analytical chemist with a focus on electroanalysis and electrochemical sensors, particularly in the quality control of pharmaceutical formulations and environmental remediation. Currently pursuing a PhD in Advanced Biotechnology at the University of Vigo, she has built a solid foundation in advanced analytical techniques through her Master’s degree in Chemical Research and Industrial Chemistry. With five years of research experience, Sara has expertise in advanced oxidation processes, spectroelectrochemistry, spectrophotometry, and chromatography, and she is knowledgeable in ISO standards for quality management. She has contributed as a peer reviewer for indexed journals for two years and is a member of the Real Sociedad Española de Química since 2022. Sara’s professional journey includes her role as a research and development staff member at the University of Vigo and previous experience as a private class teacher. Fluent in Spanish and proficient in English, she is recognized for her responsibility, organization, and adaptability in dynamic professional environments.

Professional Profile:

ORCID

Summary of Suitability for the Best Researcher Award 

 Sara Caruncho Pérez is a highly accomplished analytical chemist with a strong focus on electroanalysis and electrochemical sensors, making her an outstanding candidate for the Best Researcher Award. Her extensive research experience and dedication to advancing analytical techniques position her as a leader in her field.

Education

🎓 PhD in Advanced Biotechnology
University of Vigo, 2021 – Present

🎓 Master’s Degree in Chemical Research and Industrial Chemistry
Specialty in Advanced Analytical Techniques, University of Vigo, 2019 – 2020

🎓 Bachelor’s Degree in Chemistry
University of Vigo, 2015 – 2019

Work Experience

🔬 Research and Development Staff
Departments of Analytical and Food Chemistry and Chemical Engineering, University of Vigo, February 2022 – Present

👩‍🏫 Private Class Teacher
Academia Arcade, October 2020 – June 2022

🔍 Collaborating Researcher
Electroanalysis and (Bio)sensors Research Group, University of Vigo, November 2019 – October 2021

💧 Academic Practices
Physical-Chemical Water Control Laboratory, ANFACO-CECOPESCA, June 2019 – August 2019

Publication Top Notes

Voltammetric methodology for the quality control and monitoring of sulfamethoxazole removal from water

Decorated Electrode Surfaces with Nanostructures and Metal-Organic Frameworks as Transducers for Sensing

Methodology for decentralized analysis: Detection, quantification and in situ monitoring of pharmaceutical formulations removal by electro-Fenton

Clinical analysis and health: Analytical methodologies applied to the determination of chemical species of interest in urine

sheraz shamim | Laser Scanner | Best Researcher Award

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Mr. sheraz shamim | Laser Scanner | Best Researcher Award

PhD Scholar at NED University of Engineering and Technology, Pakistan

Sheraz Shamim is an accomplished engineer and researcher specializing in electrical power engineering and avionics systems. Currently pursuing a PhD at NED University of Engineering & Technology in Karachi, Pakistan, he aims to advance localization and 3D mapping technologies. With a Master’s degree from RWTH Aachen in Germany and a Bachelor’s degree from the Institute of Industrial Electronics Engineering in Pakistan, Sheraz combines academic rigor with practical experience. He has held the position of General Manager in a public sector organization since 2006, where he has managed projects involving system engineering, signal conditioning, and remote sensing. Passionate about educational development, he aspires to share cutting-edge research with the scientific community to improve living standards. In his spare time, he enjoys electronic circuit design, reading, and sports.

Profile:

Google Scholar Profile

Strengths for the Award:

  1. Educational Background: Sheraz holds a Master of Science from RWTH Aachen, a prestigious institution in Germany, and is currently pursuing a PhD in a relevant field, demonstrating a strong academic foundation in electrical engineering.
  2. Diverse Experience: With over 18 years of experience in a public sector organization, Sheraz has extensive hands-on experience in system engineering, avionics, and various aspects of electronics, which enriches his research perspective.
  3. Research Contributions: Sheraz has published multiple papers in reputable journals and conferences, focusing on innovative applications of laser scanning and mapping technologies. His work on SLAM (Simultaneous Localization and Mapping) and laser scanner characterization showcases significant contributions to the field.
  4. Interdisciplinary Skills: Proficiency in a variety of development tools and environments (MATLAB, ROS, Python, etc.) suggests a strong ability to integrate different technologies, which is crucial for modern research.
  5. Awards and Recognition: Being nominated as a best individual achiever in multiple years indicates recognition by peers and superiors, reflecting a commitment to excellence.
  6. Commitment to Education: His objective emphasizes contributing to educational development, indicating a passion for sharing knowledge and fostering growth in the scientific community.

Areas for Improvement:

  1. Expand Collaborative Networks: While he has solid experience and publications, further expanding collaborations with international researchers could enhance visibility and impact in the global research community.
  2. Broaden Research Topics: Exploring additional research areas beyond his current focus on laser scanning and SLAM could diversify his expertise and open new avenues for innovation.
  3. Enhance Public Engagement: Actively engaging in public speaking or outreach initiatives related to his research could increase awareness and interest in his work, especially in educational settings.
  4. Further Development of Programming Skills: While he has foundational knowledge in Python, advancing these skills could enhance his research capabilities, particularly in data analysis and algorithm development.

Education:

Sheraz Shamim is currently pursuing his PhD in Localization and 3D Mapping at the Electronic Engineering Department of NED University of Engineering & Technology, Karachi, Pakistan. He holds a Master of Science in Electrical Power Engineering, obtained in 2011 from RWTH Aachen University, one of Germany’s leading technical universities. His undergraduate studies culminated in a Bachelor of Engineering in Industrial Electronics from the Institute of Industrial Electronics Engineering, P.C.S.I.R, Karachi, Pakistan, affiliated with NED University, where he graduated in 2006. Throughout his academic journey, he has been awarded scholarships, including a merit-based MSc scholarship from the Higher Education Commission (HEC) of Pakistan. His educational background not only underscores his technical expertise but also reflects his commitment to contributing to advancements in the field of electrical engineering and enhancing educational standards in his home country.

Experience:

Sheraz Shamim has over 18 years of experience in the field of electrical engineering, currently serving as General Manager in a public sector organization since 2006. His role encompasses diverse responsibilities, including system engineering for avionics systems, modeling and simulation of subsystems, and instrumentation and signal conditioning. He has demonstrated expertise in both analog and digital electronics, as well as modular-based power electronics management and distribution. His work also extends to electrical drive control and monitoring systems, remote sensing technologies, and GPS-INS integration for vehicle navigation. Additionally, Sheraz has successfully led various projects, including the analysis of modular multilevel converters for DC grids and the automation of industrial processes. His extensive hands-on experience equips him with a robust understanding of practical applications, making him a valuable asset in advancing innovative technologies in his field.

Research Focus:

Sheraz Shamim’s research primarily focuses on localization and 3D mapping technologies, with a keen interest in applying laser scanning and computer vision in real-world applications. His work involves the implementation of 2D feature-based SLAM solutions for indoor mapping, showcasing his commitment to enhancing navigation systems through advanced sensor integration. He has extensively studied the characterization and calibration of 2D laser sensors, aiming to improve accuracy in mapping and surveying applications. Additionally, Sheraz has explored the development of low-cost laser scanning systems for generating Building Information Models (BIM), emphasizing accessibility and efficiency in architectural practices. His research contributes significantly to the fields of robotics, automation, and electrical engineering, with the goal of enhancing common living standards through state-of-the-art technology. With a strong publication record, he is actively engaged in disseminating his findings to the scientific community, driving innovation and collaboration.

Publications Top Notes:

  • Characterization and calibration of multiple 2D laser scanners
  • A Comparative Study of Multiple 2D Laser Scanners for Outdoor Measurements
  • Development of a Low-Cost Stationary Laser Scanning System for Generation of Building Information Models
  • Low Cost Backpack Scanning and Mapping System for Indoor Environments
  • Building 3D Perception Model Around Moving Vehicle Using Laser and Vision Information
  • Campus Terrain Surveying and Mapping using Low Range 2D Laser Scanners

Conclusion:

Sheraz Shamim exemplifies a strong candidate for the Best Researcher Award due to his solid educational background, extensive professional experience, and impactful research contributions. His work significantly advances the fields of electrical engineering and robotics. By addressing areas for improvement, particularly in collaborative and public engagement efforts, he could further enhance his profile as a leading researcher. Recognizing his achievements through this award would not only honor his past contributions but also motivate continued excellence in his future endeavors.

Reza Shokri | Neural Recording | Best Paper Award

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Mr. Reza Shokri | Neural Recording | Best Paper Award

PhD at University of Genova, Italy

Reza Shokri, born in July 1992, is an accomplished electrical engineer specializing in integrated circuit design and biomedical applications. With a strong academic background and a passion for innovation, Reza has consistently excelled in his field, demonstrating leadership through both research and teaching roles. Currently pursuing his PhD at the University of Genova, he continues to develop cutting-edge technologies that bridge the gap between engineering and medicine. Reza’s work is characterized by its relevance to neural recording systems, showcasing his commitment to improving healthcare through engineering solutions.

Profile:

ORCID Profile

Strengths for the Award:

  1. Outstanding Academic Performance: Reza has demonstrated exceptional academic achievement, being ranked 2nd in a highly competitive PhD entrance exam in Iran, and 65th among over 30,000 participants in the MSc entrance exam. This reflects both his intellect and dedication to his field.
  2. Diverse Research Experience: His research spans critical areas such as DC-DC converters, low-power biomedical ADCs, and neural recording systems. This breadth showcases his versatility and ability to tackle complex problems in engineering.
  3. Significant Contributions to Publications: Reza has authored and co-authored several noteworthy publications, including articles in reputable journals and conference proceedings. His work on a VCO-based ADC for neural recording applications indicates a strong focus on practical and impactful research.
  4. Teaching and Mentoring: His experience as a teaching assistant at reputable institutions highlights his ability to communicate complex concepts and contribute to the education of future engineers.
  5. Relevant Work Experience: His professional roles in both academic and industrial settings, particularly in designing analog integrated circuits for biomedical applications, demonstrate practical skills and a commitment to applying research in real-world contexts.
  6. Collaborative Research Efforts: Reza has effectively collaborated with multiple researchers and professors, indicating strong teamwork skills and an ability to contribute to multidisciplinary projects.

Areas for Improvement:

  1. Language Proficiency: While Reza has an intermediate level of English, enhancing his proficiency could improve his ability to engage with a broader international audience and contribute to global research discussions.
  2. Broader Impact Assessment: Although his research is innovative, focusing more on the societal and economic impacts of his work could enhance its relevance and applicability.
  3. Networking and Conferences: Increasing participation in international conferences and workshops can provide Reza with more opportunities to present his work, receive feedback, and establish connections with other researchers.
  4. Leadership Roles: Pursuing leadership positions in research groups or committees could help him develop skills in project management and strategic planning.

Education:

Reza began his academic journey in Electrical Engineering at Tabriz University, earning his BSc with a thesis on “Implementation of Digital Pen with an Accelerometer.” He later pursued an MSc at the University of Tehran, focusing on circuit design for neural recording systems. His commitment to furthering his expertise led him to the University of Genova, where he is currently working towards a PhD. His education has equipped him with a solid foundation in both theoretical knowledge and practical skills, essential for addressing complex engineering challenges.

Experience:

Reza’s professional experience spans multiple roles in both academic and industry settings. He currently works as an Analog Integrated Circuit Designer at the University of Tehran, focusing on the design and layout of multipolar waveform stimulators for deep brain stimulation systems. Previously, he served as a Hardware Designer at Niktek Company, where he designed a high-resolution arbitrary waveform stimulator. His experience also includes significant projects on DC-DC converters and automotive control modules, showcasing his versatile engineering skills and commitment to advancing technology in biomedical applications.

Awards and Honors:

Reza has received numerous accolades for his academic and research excellence. He ranked 2nd out of over 1500 participants in the Electrical Engineering PhD Entrance Exam in Iran and achieved 65th among more than 30,000 in the MSc Entrance Exam. These accomplishments reflect his dedication and proficiency in electrical engineering. Reza’s commitment to advancing knowledge in his field has not only earned him recognition but also inspires his peers and future engineers to strive for excellence.

Research Focus:

Reza’s research focuses on the intersection of electrical engineering and biomedical applications, particularly in neural recording and stimulation systems. His work includes the design of low-power, high-performance analog-to-digital converters and DC-DC converters tailored for biomedical applications. He is also exploring quantum phase estimation algorithms, reflecting his innovative approach to addressing modern engineering challenges. Reza’s research aims to enhance medical technologies and improve patient outcomes, contributing significantly to the field of biomedical engineering.

Publication Top Notes:

  • A Reconfigurable, Nonlinear, Low-Power, VCO-Based ADC for Neural Recording Applications
  • Highly Linear, Digital OTA With Modified Input Stage
  • Multipolar Stimulator for DBS Application with Concurrent Imbalance Compensation
  • A Nonlinear, Low-Power, VCO-Based ADC for Neural Recording Applications
  • A Buck Converter Based on Dual Mode Asynchronous Pulse Width Modulator

Conclusion:

Reza Shokri possesses the qualifications, research experience, and academic achievements that make him a strong candidate for the Best Researcher Award. His dedication to advancing knowledge in electrical engineering, particularly in biomedical applications, is commendable. By addressing areas for improvement, such as enhancing language skills and increasing networking opportunities, Reza can further amplify his contributions to the field and increase his impact as a researcher. His potential for future innovation and leadership in electrical engineering positions him as a valuable asset to the academic and scientific community.

Amir Fayyaz | Sensor Characterization | Best Researcher Award

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Dr. Amir Fayyaz | Sensor Characterization | Best Researcher Award

Assistant prof. at National center for Physics, Islamabad, Pakistan

Amir Fayyaz is a dedicated researcher and educator in the field of physics, specializing in laser-induced breakdown spectroscopy (LIBS) and elemental analysis. Based in Islamabad, Pakistan, he has amassed extensive experience across various academic and research institutions, including The University of Arizona and Quaid-i-Azam University. His contributions encompass advanced spectroscopic techniques for chemical analysis, focusing on rare earth elements and high-entropy alloys. Amir is also an active participant in national and international conferences, where he shares his findings and innovations. His commitment to education is evident through his roles as a teaching assistant and lecturer, where he inspires the next generation of physicists.

Profile:

Strengths for the Award:

  1. Extensive Research Experience: Amir Fayyaz possesses a robust background as a research associate, assistant, and scholar in prestigious institutions, including The University of Arizona and Quaid-i-Azam University. His hands-on experience with advanced techniques such as Laser-Induced Breakdown Spectroscopy (LIBS) and time-of-flight mass spectrometry (TOF-MS) demonstrates his technical expertise.
  2. Diverse Skill Set: His proficiency in various analytical techniques, including EDX, XRF, and chemometric analyses, showcases his versatility. He has successfully conducted elemental analysis of rare earth elements and high entropy alloys, positioning him at the forefront of current scientific inquiries.
  3. Publication Record: Amir has a commendable publication record with multiple articles in reputable journals, highlighting his contributions to the field. His work on LIBS-assisted PCA and elemental analysis of rare earth ores is particularly noteworthy.
  4. Conference Engagement: His active participation in national and international conferences underscores his commitment to sharing knowledge and collaborating with the scientific community. Winning a best presentation award at a prestigious conference further validates his research impact.
  5. Teaching Experience: Amir has demonstrated his capability to convey complex concepts effectively as a teaching assistant and lecturer. This dual role as a researcher and educator enhances his profile, as it reflects his ability to mentor future scientists.
  6. Research Funding: Securing funding for multiple research projects indicates his research proposal skills and the trust of funding bodies in his capabilities. This experience is crucial for leading significant research initiatives.

Areas for Improvement:

  1. Broader Research Collaboration: While Amir has engaged in several projects, expanding his collaborative efforts across different disciplines could enhance his research impact and foster innovative solutions to complex problems.
  2. Outreach Activities: Increasing involvement in outreach or public engagement initiatives could raise awareness of his research and its societal implications, thereby enhancing the visibility of his work.
  3. Diversity of Research Topics: Exploring additional areas outside his current focus could enrich his portfolio and open avenues for interdisciplinary research.
  4. Grant Writing Skills: Further developing grant writing skills will be beneficial for securing more funding opportunities and leading larger research projects.

Education:

Amir Fayyaz holds a Master’s degree in Physics from Quaid-i-Azam University, Islamabad, where he excelled in research on atomic and molecular physics. His academic journey began with a Bachelor’s degree in Physics, laying a strong foundation in theoretical and experimental physics. His education is complemented by various workshops and seminars that enhance his research skills, particularly in spectroscopy and materials science. Amir has been awarded a Departmental Fellowship and an International Research Support Initiative Scholarship, reflecting his academic prowess and dedication to advancing the field of physics.

Experience:

Amir’s professional experience spans multiple prestigious institutions. As a Research Associate at The University of Arizona, he optimized 2D LIBS mapping systems and conducted chemical analyses of ores. His previous roles as a Research Assistant at Quaid-i-Azam University and as a Visiting Research Scholar at the National Center for Physics involved calibrating LIBS systems and conducting elemental analyses. Amir has also served as a Teaching Assistant and Specialist Lecturer, where he taught various undergraduate physics courses. His work has been recognized through presentations at numerous conferences, showcasing his research on LIBS and its applications.

Awards and Honors:

Amir has received several prestigious awards, highlighting his academic and research achievements. He was honored with a Departmental Fellowship from Quaid-i-Azam University and an International Research Support Initiative Scholarship from the Higher Education Commission of Pakistan. His outstanding presentation skills earned him the Best Presentation Prize at the International Nathiagali Summer College. Additionally, he was recognized with the Prime Minister Laptop Award for his academic excellence. These accolades reflect his commitment to research and education, as well as his potential for future contributions to the field of physics.

Research Focus:

Amir’s research primarily centers on laser-induced breakdown spectroscopy (LIBS) and its applications in elemental analysis. His work includes optimizing LIBS systems for analyzing rare earth elements and high-entropy alloys, as well as developing calibration-free techniques for various materials. He also explores the use of spectroscopic methods in characterizing polymers and other advanced materials. Amir’s research aims to enhance the efficiency and accuracy of elemental detection, contributing to advancements in materials science and environmental analysis. His ongoing projects reflect a strong commitment to innovative research that addresses contemporary challenges in physics and engineering.

Publications Top Notes:

  • Elemental analysis of cement by calibration-free laser induced breakdown spectroscopy (CF-LIBS) and comparison with laser ablation–time-of-flight–mass spectrometry (LA-TOF-MS)
    A Fayyaz, U Liaqat, Z Adeel Umar, R Ahmed, M Aslam Baig, Analytical Letters 52 (12), 1951-1965 (2019)
  • VO2 thin film based highly responsive and fast VIS/IR photodetector
    ZA Umar, R Ahmed, H Asghar, U Liaqat, A Fayyaz, MA Baig, Materials Chemistry and Physics 290, 126655 (2022)
  • LIBS assisted PCA analysis of multiple rare-earth elements (La, Ce, Nd, Sm, and Yb) in phosphorite deposits
    A Fayyaz, H Asghar, AM Alshehri, TA Alrebdi, Heliyon 9 (3) (2023)
  • Combination of laser-induced breakdown spectroscopy, and time–of–flight mass spectrometry for the quantification of CoCrFeNiMo high entropy alloys
    A Fayyaz, U Liaqat, K Yaqoob, R Ahmed, ZA Umar, MA Baig, Spectrochimica Acta Part B: Atomic Spectroscopy 198, 106562 (2022)
  • Laser spectroscopic characterization for the rapid detection of nutrients along with CN molecular emission band in plant-biochar
    TA Alrebdi, A Fayyaz, H Asghar, S Elaissi, LAE Maati, Molecules 27 (15), 5048 (2022)
  • Vibrational Emission Study of the CN and C2 in Nylon and ZnO/Nylon Polymer Using Laser-Induced Breakdown Spectroscopy (LIBS)
    TA Alrebdi, A Fayyaz, A Ben Gouider Trabelsi, H Asghar, FH Alkallas, Polymers 14 (17), 3686 (2022)
  • Quantification of aluminum gallium arsenide (AlGaAs) wafer plasma using calibration-free laser-induced breakdown spectroscopy (CF-LIBS)
    TA Alrebdi, A Fayyaz, H Asghar, A Zaman, M Asghar, FH Alkallas, Molecules 27 (12), 3754 (2022)
  • Analysis of Rare Earth Ores Using Laser-Induced Breakdown Spectroscopy and Laser Ablation Time-of-Flight Mass Spectrometry
    A Fayyaz, R Ali, M Waqas, U Liaqat, R Ahmad, ZA Umar, MA Baig, Minerals 13 (6), 787 (2023)
  • Supercapacitive behavior and energy storage properties of molybdenum carbide ceramics synthesized via ball milling technique
    K Naseem, Z Ali, P Chen, A Tahir, F Qin, A Fayyaz, MD Albaqami, Ceramics International 50 (6), 9572-9580 (2024)
  • Elemental study of Devarda’s alloy using calibration free-laser induced breakdown spectroscopy (CF‒LIBS)
    J Iqbal, TA Alrebdi, A Fayyaz, H Asghar, SKH Shah, M Naeem, Laser Physics 33 (3), 036001 (2023)
  • Enhanced generation of hydrogen through hydrolysis of biochar-coupled magnesium: Analysis of the performance of biochar-support and the effect of metallic coating on biochar
    K Naseem, J Zhang, A Fayyaz, W Hayat, S Ahmed, S Khursheed, Journal of Environmental Chemical Engineering 12 (1), 111770 (2024)
  • Laser-Induced breakdown spectroscopy and energy-dispersive x-ray analyses for green mineral fluorite (CaF2)
    A Fayyaz, H Asghar, TA Alrebdi, Results in Physics 52, 106850 (2023)
  • Multi-Spectroscopic Characterization of MgO/Nylon (6/6) Polymer: Evaluating the Potential of LIBS and Statistical Methods
    A Fayyaz, H Asghar, M Waqas, A Kamal, WA Al-Onazi, AM Al-Mohaimeed, Polymers 15 (15), 3156 (2023)
  • Optical and thermal characterization of pure CuO and Zn/CuO using laser-induced breakdown spectroscopy (LIBS), x-ray fluorescence (XRF), and ultraviolet–visible (UV–Vis)
    MI Khan, A Fayyaz, S Mushtaq, H Asghar, TA Alrebdi, H Cabrera, R Ali, Laser Physics Letters 20 (8), 086001 (2023)
  • Chemometrics and Spectroscopic Analyses of Peganum harmala Plant’s Seeds by Laser-Induced Breakdown Spectroscopy
    TA Alrebdi, A Fayyaz, H Asghar, A Kamal, J Iqbal, NK Piracha, Applied Sciences 13 (5), 2780 (2023)
  • Spectroscopical Characterization of Copper–Iron (Cu-Fe) Alloy Plasma Using LIBS, ICP-AES, and EDX
    A Fayyaz, J Iqbal, H Asghar, TA Alrebdi, AM Alshehri, W Ahmed, N Ahmed, Metals 13 (7), 1188 (2023)
  • Analytical Techniques for Elemental Analysis: LIBS, LA-TOF-MS, EDX, PIXE, and XRF: A Review
    MA Baig, A Fayyaz, R Ahmed, ZA Umar, H Asghar, U Liaqat, R Hedwig, Proceedings of the Pakistan Academy of Sciences: A. Physical and Biological Sciences (2024)
  • CF-LIBS based elemental analysis of Saussurea simpsoniana medicinal plant: a study on roots, seeds, and leaves
    A Fayyaz, N Ali, ZA Umar, H Asghar, M Waqas, R Ahmed, R Ali, MA Baig, Analytical Sciences 40 (3), 413-427 (2024)

Conclusion:

Amir Fayyaz is an exceptionally qualified candidate for the Best Researcher Award. His extensive experience in advanced research methodologies, a strong publication record, and a commitment to education exemplify his dedication to advancing scientific knowledge. By addressing areas for improvement, he could enhance his already impressive profile and contribute even more significantly to the field of physics and materials science. His potential for future contributions, coupled with his current achievements, strongly supports his nomination for this award.

Pablo David Esquinazi | Superconductivity | Best Researcher Award

Posted on by ScienceFather

Prof Dr. Pablo David Esquinazi | Superconductivity | Best Researcher Award

Prof. Emeritus at University of Leipzig, Germany

Prof. Dr. Pablo David Esquinazi, born on May 25, 1956, is a distinguished physicist and Professor Emeritus at Universität Leipzig. With a career spanning over four decades, he is renowned for his contributions to condensed matter physics, particularly in superconductivity and magnetism. He has published extensively and holds multiple patents, reflecting his innovative spirit. A dedicated mentor, he has also played a pivotal role in shaping future scientists through various academic programs and collaborations. As a passionate researcher, he remains engaged in advancing scientific knowledge and applications.

Profile:

Strengths for the Award:

  1. Extensive Academic Background: Prof. Esquinazi has a solid educational foundation in physics, with degrees from prestigious institutions, including the Instituto Balseiro and Universität Bayreuth. His extensive academic experience, culminating in a Habilitation, underscores his deep expertise in the field.
  2. Professional Contributions: With nearly three decades as a professor and division speaker at Universität Leipzig, he has made significant contributions to the field of condensed matter physics, specifically in superconductivity and magnetism.
  3. Research Impact: His work has led to substantial advancements in understanding phenomena like granular superconductivity and defect-induced magnetism. His numerous publications in high-impact journals reflect a strong research output, with several articles receiving citations, indicating the influence of his work on the scientific community.
  4. Innovation and Patents: Prof. Esquinazi holds multiple patents in advanced materials and quantum sensors, demonstrating his commitment to translating research into practical applications. This innovation reflects his ability to push the boundaries of current scientific knowledge.
  5. Leadership in Collaborative Research: He has been actively involved in collaborative research projects, such as the SFB 762 and DFG FOR 404, showcasing his ability to work effectively within interdisciplinary teams and lead significant research initiatives.
  6. Recognition and Awards: The Rudolf-Kaiser-Award highlights his noteworthy contributions to the field, affirming his status as a leading researcher in physics.
  7. Mentorship and Education: His role as a member of the Graduate School BuildMona indicates his dedication to mentoring the next generation of physicists, enhancing the academic community and contributing to knowledge dissemination.

Areas for Improvement:

  1. Broader Outreach: While Prof. Esquinazi has contributed significantly to academic journals, expanding outreach through public engagement or interdisciplinary collaboration could further enhance his visibility and impact.
  2. Interdisciplinary Projects: Increasing participation in interdisciplinary research could lead to innovative breakthroughs by applying his expertise in new contexts, particularly in emerging fields like quantum computing or nanotechnology.
  3. Increased Publications in Open Access: Although many of his works are open access, increasing the number of freely available publications could broaden access to his research, fostering greater collaboration and recognition.
  4. Funding and Grants: Seeking larger or more diverse funding opportunities could enable more extensive research projects and support additional students or postdocs.

Education:

Prof. Esquinazi completed his studies in physics at the University of Tucuman and Instituto Balseiro in Argentina, earning his diploma in 1979. He furthered his education with a Doctorate from Instituto Balseiro in 1983, followed by a Habilitation at Universität Bayreuth in 1991. His academic journey was marked by mentorship from prominent physicists, shaping his expertise in low-temperature physics and materials science. This robust educational foundation has enabled him to contribute significantly to his field, fostering a deep understanding of complex physical phenomena.

Experience:

With professional experience beginning in 1980, Prof. Esquinazi served as a research associate and postdoc at renowned institutions, including CAB-Bariloche and Universität Heidelberg. He was a professor at Universität Bayreuth from 1988 to 1994 before joining Universität Leipzig, where he led the Felix-Bloch Institute until his retirement in 2022. His leadership in collaborative research initiatives, including the SFB 762, highlights his ability to drive impactful projects in the field. Throughout his career, he has also been an invited professor at several international universities, promoting global scientific collaboration.

Awards and Honors:

In 1993, Prof. Esquinazi received the prestigious Rudolf-Kaiser-Award, recognizing his significant contributions to understanding the thermally activated behavior of flux line lattices in high-temperature superconductors. This award underscores his innovative research and dedication to advancing knowledge in superconductivity and materials science. His work has been influential in the scientific community, garnering respect and recognition among peers. Through his ongoing research and mentorship, he continues to inspire future generations of physicists.

Research Focus:

Prof. Esquinazi’s research primarily revolves around superconductivity, magnetism, and the properties of functional materials. He has extensively studied granular superconductivity, defect-induced magnetism, and magnetotransport phenomena in various materials, including graphite and ZnO nanostructures. His work integrates experimental and theoretical approaches to explore the underlying physical principles, leading to novel applications in quantum sensors and advanced materials. As an editor and contributor to several significant publications, he actively shapes the discourse in condensed matter physics.

Publication Titles:

  • Magnetite crystallization in a sodium-calcium-silicate glass with high iron oxide concentration–Effect on the magnetic properties
  • Feasibility of room temperature detection of low energy single ions using nanometer-thick graphite
  • Hints of granular superconductivity in natural graphite verified by trapped flux transport measurements
  • Magnetotransport Properties of Microstructured ZnO Thin Films Grown on a- and r-Plane Sapphire Substrates
  • Defect-induced magnetism in TiO2: An example of quasi 2D magnetic order with perpendicular anisotropy
  • Spin Dynamics of a Solid-State Qubit in Proximity to a Superconductor
  • High-field and high-temperature magnetoresistance reveals the superconducting behavior of the stacking faults in multilayer graphene
  • Magnetic manipulation in Dy/Tb multilayer upon electron-irradiation
  • On the Localization of Persistent Currents Due to Trapped Magnetic Flux at the Stacking Faults of Graphite at Room Temperature
  • Nanometers-Thick Ferromagnetic Surface Produced by Laser Cutting of Diamond

Conclusion:

Prof. Dr. Pablo David Esquinazi exemplifies the qualities of an outstanding researcher deserving of the Best Researcher Award. His extensive academic background, impactful research contributions, innovative spirit, and leadership in collaborative projects position him as a leader in the field of physics. By enhancing outreach and interdisciplinary efforts, he could further amplify his already significant impact on the scientific community. Recognizing his achievements with this award would not only honor his past contributions but also encourage continued excellence and innovation in his future endeavors.