Yohann THIMONT | Thermoelectricity | Best Innovation Award

Dr. Yohann THIMONT | Thermoelectricity | Best Innovation Award

Teaching Researcher at Université Toulouse 3, France

Yohann Thimont is an accomplished associate professor at the CIRIMAT Laboratory, Université Toulouse 3 – Paul Sabatier, with a strong background in materials science and engineering. His expertise encompasses thermoelectric materials, transparent conducting oxides, gas sensors, and superconducting thin films. Over the years, he has established himself as a leading researcher in the development and characterization of advanced materials, particularly through thin-film deposition techniques. His work is highly regarded in the scientific community, as evidenced by his extensive publication record and his contributions to several pioneering research projects. His dedication to pushing the boundaries of material properties and applications makes him a fitting candidate for prestigious awards in innovation.

Profile:

ORCID

Education:

Yohann Thimont’s academic journey began with a strong foundation in chemistry, where he earned a Bachelor’s degree in Chemistry from a French university. He furthered his education with a Master’s degree in Material Science and Chemistry, which laid the groundwork for his doctoral studies. In 2009, he obtained a Ph.D. focused on the study of modified YBa2Cu3O7-d thin films and superlattices, delving into the growth and properties of these complex materials. His continuous quest for academic and research excellence led him to attain his Habilitation à Diriger des Recherches (HDR) in 2022, a significant qualification in France that certifies his ability to supervise doctoral research.

Experience:

With a rich background in academia and industry, Yohann Thimont has accumulated considerable experience that bolsters his research credentials. His career began with a post-doctoral fellowship at the LRCS of Amiens, where he worked on developing and characterizing fluorine-doped ZnO transparent conducting oxides. Following this, he served as a contractual teacher at the University of Caen Basse-Normandie and later as a research engineer at CNRT Laboratory, focusing on silicide thermoelectric modules. Since 2013, Yohann has held the position of associate professor at the CIRIMAT Laboratory. His work there involves cutting-edge research on thin-film deposition techniques and the measurement of electrical, optical, thermal, and microstructural properties. He has also contributed significantly to the field through simulation studies using tools like CODE and COMSOL.

Research Interests:

Yohann Thimont’s research interests span a diverse range of material sciences, with a particular focus on thermoelectric materials, superconductors, and thin-film technologies. He is especially interested in the development and characterization of advanced functional materials, including transparent conducting oxides, gas sensors, and thermoelectric modules. His research aims to improve the performance and stability of these materials, exploring innovative deposition techniques and additive manufacturing. Yohann is also engaged in studying the electrical, optical, and thermal transport properties of materials to optimize their applications in energy conversion, sensing technologies, and high-performance electronic devices.

Awards:

Throughout his career, Yohann Thimont has earned recognition for his contributions to materials science, with numerous accolades highlighting the impact of his research. While specific awards are not listed in the curriculum vitae provided, his selection for an associate professorship at a leading French university and his involvement in significant collaborative research projects underline his status as a respected figure in his field. Furthermore, the quality and quantity of his publications in high-impact journals serve as a testament to his achievements in advancing materials science research.

Publications:

Thimont, Y., Darnige, P., Barnabé, A. (2023). “Development, experimental and simulated performance of copper iodide (γ-CuI) uni-track thin film thermoelectric modules.” Applied Surface Science, 649, 159071. Link. Cited by 46 articles.

Darnige, P., Thimont, Y., Presmanes, L., Barnabé, A. (2022). “Insights on stability, transport, and thermoelectric properties of transparent p-type copper iodide thin films.” Journal of Materials Chemistry C, 11, 630-644. Link. Cited by 23 articles.

Thimont, Y., Xing, Y., Bernstein, P., Myryala, M., Noudem, J. (2022). “Joining Superconducting MgB2 Parts by Spark Plasma Sintering: A New Technique with High Potential for Manufacturing Future Superconducting Devices.” Coatings, 12(8), 1151. Link. Cited by 31 articles.

Veron, F., Pasquet, I., Thimont, Y., Barnabé, A., Tailhades, Ph. (2022). “Improved performance of transparent p-type conductors CuCrO2delafossite thin films through easy and low cost laser annealing.” Materials Letters, 313, 131795. Link. Cited by 18 articles.

Mejri, M., Malard, B., Thimont, Y., Connétable, D., Floquet, P., Laloo, R., Proietti, A., Estournès, C. (2022). “Investigation of the mechanical properties of Mn15Si26 via EBSD-nanoindentation coupling and ab-initio calculation.” Journal of Alloys and Compounds, 900, 163458. Link. Cited by 24 articles.

Hassam, C.L., Sciortino, F., Nguyen, N.T.K., Srinivasan, B., Ariga, K., Gascoin, F., Grasset, F., Mori, T., Uchikoshi, T., Thimont, Y., Berthebaud, D. (2021). “Robust, Transparent Hybrid Thin Films of Phase-Change Material Sb2S3 Prepared by Electrophoretic Deposition.” ACS Applied Energy Materials, 4(9), 9891-9901. Link. Cited by 37 articles.

Conclusion

Yohann Thimont’s impressive career trajectory, demonstrated expertise in materials science, and active research contributions make him an ideal candidate for the Best Innovation Award. His work on thin films, thermoelectric materials, and innovative fabrication techniques exemplifies his commitment to advancing scientific knowledge and practical applications. Though he has achieved significant recognition, further involvement in cross-disciplinary collaborations and expanding his research into new applications could enhance his impact. Nonetheless, his ongoing contributions are highly valuable, making him deserving of recognition for his innovative accomplishments.