Nesrine Guesmi is a dedicated and highly motivated doctoral candidate specializing in physics, currently pursuing her Ph.D. with the Stepstone team in Chemnitz. Born on June 26, 1994, in Sfax, Tunisia, Nesrine has consistently demonstrated a strong commitment to academic excellence and research innovation. With a solid foundation in fundamental and applied physics, she has developed a keen interest in sustainable materials and advanced spectroscopic techniques. Nesrine’s proactive approach is evident through her active participation in international conferences and workshops, where she has presented her research findings on topics such as the microstructural influences on ultrasonic parameters and the electrical and mechanical properties of hydroxyapatite/polymer composites. Her multilingual abilities in Arabic, French, and English, combined with her technical proficiency in MATLAB and OriginPro, enable her to collaborate effectively in diverse and interdisciplinary research environments. Beyond her academic pursuits, Nesrine is passionate about sports, music, and camping, which contribute to her well-rounded personality and resilience. Her dedication to continuous learning and professional development, coupled with her achievements and recognitions, position her as a promising researcher poised to make significant contributions to the field of physics and sustainable materials science.
Professional Profile
Education
Nesrine Guesmi has built a robust academic foundation through her progressive studies in physics at the Faculty of Science of Sfax, Tunisia. She began her higher education journey by obtaining a Baccalaureate in Mathematics from the Technical School 9 April 1938 in Sfax in 2013, which provided her with a strong analytical and quantitative background essential for her future studies in physics. She continued her education by earning a Fundamental Physics Degree from the same institution in 2016, where she delved into core physical principles and methodologies, laying the groundwork for her specialized research interests. Demonstrating her commitment to academic excellence, Nesrine pursued a Master’s Degree in Physics from 2016 to 2019 at the Faculty of Science of Sfax. During her master’s program, she engaged in advanced coursework and research projects that honed her expertise in various areas of physics, including material science and spectroscopy. Currently, Nesrine is advancing her academic career as a Ph.D. student with the Stepstone team in Chemnitz, a position she began in October 2024. Her doctoral studies focus on innovative research in sustainable biomaterials and impedance spectroscopy, reflecting her dedication to addressing contemporary scientific challenges and contributing to the advancement of her field.
Professional Experience
Nesrine Guesmi’s professional experience, though currently concentrated on her doctoral studies, reflects a focused and strategic approach to her career in research. In October 2024, she embarked on her Ph.D. journey with the Stepstone team in Chemnitz, where she engages in cutting-edge research in sustainable biomaterials and impedance spectroscopy. This role involves conducting experimental studies, analyzing complex data sets, and collaborating with a multidisciplinary team of scientists and engineers. Her responsibilities include designing and executing experiments, presenting findings at international conferences, and contributing to scholarly publications. Prior to her doctoral studies, Nesrine completed her Master’s and Fundamental Physics degrees at the Faculty of Science of Sfax, where she gained valuable hands-on experience in laboratory settings, project management, and scientific communication. She actively participated in organizing the International School on Smart Biomaterials for a Green and Sustainable Environment (BioMAT 2023), earning certificates of appreciation for her outstanding support. Additionally, her involvement in various training programs, such as X-ray diffraction and impedance spectroscopy, has equipped her with specialized skills that enhance her research capabilities. Nesrine’s professional journey is marked by a continuous pursuit of knowledge, practical application of her skills, and a commitment to contributing meaningfully to the scientific community.
Research Interests
Nesrine Guesmi’s research interests lie at the intersection of material science and advanced spectroscopic techniques, with a particular focus on sustainable biomaterials and their applications. She is deeply engaged in exploring the microstructural properties of polycrystalline materials and their influence on ultrasonic parameters, aiming to develop materials with enhanced mechanical and electrical characteristics. Her doctoral research involves the study of hydroxyapatite/polymer composites, where she investigates the electrical and mechanical properties of these materials to advance their use in sustainable energy solutions, such as nanoflexible polymer composite canogenerators. Nesrine is also interested in impedance spectroscopy, a technique she utilizes to analyze the electrical properties of materials, providing insights into their behavior under various conditions. Her participation in international workshops and training programs, including the International Workshop on Impedance Spectroscopy and Advanced School on Impedance Spectroscopy, underscores her commitment to mastering sophisticated analytical methods. Additionally, Nesrine is passionate about the development of smart biomaterials that contribute to green and sustainable environments, reflecting her dedication to addressing global challenges through innovative research. Her multifaceted research interests not only contribute to scientific advancements but also align with the growing emphasis on sustainability and environmental responsibility in modern research.
Research Skills
Nesrine Guesmi possesses a comprehensive set of research skills that enable her to excel in her field of physics and material science. She is proficient in using MATLAB and OriginPro, essential tools for data analysis, simulation, and visualization, which she employs to interpret complex experimental results and model physical phenomena. Her technical expertise extends to specialized techniques such as X-ray diffraction and impedance spectroscopy, acquired through dedicated training programs and hands-on research projects. These skills allow her to investigate the structural and electrical properties of materials with precision and accuracy. Nesrine is also adept at conducting oral presentations, having effectively communicated her research on the influence of microstructures on ultrasonic parameters and the electrical and mechanical study of hydroxyapatite/polymer composites at international conferences. Her ability to organize and support academic events, as demonstrated by her role in the International School on Smart Biomaterials for Green and Sustainable Environment (BioMAT 2023), highlights her project management and teamwork capabilities. Additionally, Nesrine’s multilingual proficiency in Arabic, French, and English facilitates her collaboration with diverse research teams and access to a broader range of scientific literature. Her strong foundation in fundamental and applied physics, combined with her analytical mindset and problem-solving abilities, make her a valuable asset in any research setting.
Awards and Honors
Nesrine Guesmi has been recognized for her contributions and dedication to the scientific community through various awards and honors. Notably, she received certificates of appreciation for her outstanding support in organizing the International School on Smart Biomaterials for a Green and Sustainable Environment (BioMAT 2023), highlighting her commitment to fostering collaborative and educational initiatives within her field. Additionally, Nesrine has been acknowledged for her active participation in prestigious events such as the 16th International Workshop on Impedance Spectroscopy and the Advanced School on Impedance Spectroscopy, where she earned certificates of participation, reflecting her dedication to continuous learning and professional development. Her ability to present original research findings through oral presentations at international conferences demonstrates her recognition as a capable and emerging researcher. These honors not only validate her hard work and contributions but also enhance her professional reputation, positioning her as a promising candidate for future awards and recognitions. Nesrine’s accolades underscore her proactive engagement in the scientific community, her leadership in organizing significant research events, and her excellence in presenting and disseminating research knowledge. As she continues to advance in her academic and research career, these honors serve as a testament to her potential and achievements in the field of physics and sustainable materials science.
Conclusion
Nesrine Guesmi demonstrates potential through her academic background, technical skills, and early research experiences. While her research output is still developing, her involvement in sustainable research initiatives and commitment to continuous learning are valuable attributes for a Best Researcher Award. If she continues to build her profile through publications and broadens her research experience, she could make a strong candidate for future awards.
Publications Top Note
A Comprehensive Review of Strategies toward Efficient Flexible Piezoelectric Polymer Composites Based on BaTiO₃ for Next-Generation Energy Harvesting
- Journal: Energies
- Year: 2024 (August)
- Publication Type: Journal Article
- DOI: 10.3390/en17164066
- Contributors: Ayda Bouhamed, Sarra Missaoui, Amina Ben Ayed, Ahmed Attaoui, Dalel Missaoui, Khawla Jeder, Nesrine Guesmi, Anouar Njeh, Hamadi Khemakhem, Olfa Kanoun