Arnaud Demortière | Materials Science | Best Researcher Award

Prof. Arnaud Demortière | Materials Science | Best Researcher Award

Director of research, LRCS Lab at CNRS, France

Dr. Arnaud Demortière is a highly accomplished researcher in materials science, currently serving as Director of Research at CNRS and head of Electron Microscopy and X-Ray Facilities at RS2E. With a PhD in Nanomaterials Science and an HDR, his academic achievements are complemented by an impressive research output, including 90 publications, an H-index of 36, and over 5700 citations. He has led multiple ANR-funded projects and contributed to high-profile European initiatives like Battery 2030+ and Horizon 2020. As a recipient of the CNRS RISE Innovation Award 2023, Dr. Demortière is recognized for his groundbreaking work in energy storage and his innovative startup, PreDeeption. Additionally, he has supervised 13 PhD students, fostering the next generation of scientists. His leadership in cross-disciplinary research, project management, and mentorship makes him a deserving candidate for the Research for Best Researcher Award.

Profile:

Education

Dr. Arnaud Demortière has an extensive and distinguished academic background, beginning with a Bachelor’s in Physics-Chemistry from Lyon 1 University in 2001. He continued his studies at Lyon 1 University and ENS Lyon, where he earned a Master’s in Condensed Matter Physics in 2003. His passion for materials science led him to pursue a PhD at Pierre & Marie Curie University (Paris 6) and CNRS, where he specialized in Nanomaterials Science and completed his doctorate in 2007.

Dr. Demortière further advanced his expertise through two prestigious postdoctoral fellowships—first at IPCMS-CNRS in Strasbourg, France, and later at Argonne National Laboratory in Chicago, USA, under the Department of Energy (DOE) Fellowship. In 2021, he achieved the “Habilitation à Diriger des Recherches” (HDR) from UPJV University in Amiens, France, a significant academic milestone that recognizes his authority to supervise doctoral research, particularly in the field of battery materials and imaging techniques.

Professional Experiences

Dr. Arnaud Demortière has an extensive professional background, marked by leadership roles at prestigious institutions. He currently serves as the Director of Research at CNRS and is the Head of Electron Microscopy and X-Ray Facilities at the RS2E Network. Since joining CNRS in 2014, he has led cross-disciplinary research initiatives focused on developing in-situ and operando techniques for imaging and diffraction, crucial for advancing battery materials research. His earlier experience includes positions at Illinois Institute of Technology and Argonne National Laboratory, where he conducted groundbreaking work in materials science. Dr. Demortière’s leadership extends to managing the Image, Data Science, and Diffraction (I&2D) team at the LRCS Laboratory, where he spearheads cutting-edge research in nanomaterials. His diverse roles also include serving as a scientific consultant for Chut! Magazine, reflecting his commitment to bridging the gap between scientific research and societal impact. His professional journey exemplifies innovation, leadership, and collaboration in advancing materials science.

Research Skills

Dr. Arnaud Demortière is a highly skilled researcher with an extensive background in nanomaterials and energy storage technologies. His expertise spans cutting-edge techniques such as in-situ and operando imaging, diffraction, and X-ray tomography, enabling detailed investigation of battery materials. As a leader of several interdisciplinary research teams and projects, including ANR and Horizon 2020 initiatives, Dr. Demortière has demonstrated exceptional proficiency in managing large-scale scientific endeavors. His research has resulted in 90 high-impact publications, an H-index of 36, and over 5700 citations, reflecting the significance of his contributions to the field. Additionally, his role as a mentor to PhD students and postdoctoral researchers highlights his ability to foster scientific talent and drive innovation. Dr. Demortière’s technical expertise, combined with his leadership in both academic and industrial collaborations, positions him as a key figure in advancing materials science and energy storage technologies.

Award And Recognitions

Dr. Arnaud Demortière, Director of Research at CNRS and Head of the Electron Microscopy and X-Ray Facilities at RS2E, is a distinguished figure in the field of materials science. He has authored 90 research articles, boasts an H-index of 36, with over 5700 citations, and has presented at 50 conferences, 18 of which were as an invited speaker. In recognition of his groundbreaking work, Dr. Demortière was awarded the prestigious CNRS RISE Innovation Award in 2023 for his innovative startup project, PreDeeption. He has led several large-scale research projects, including the ANR DESTINa-ion and DynamoBat, while actively contributing to European initiatives like Battery 2030+ and Horizon 2020. Dr. Demortière’s commitment to mentoring the next generation of scientists is reflected in his supervision of numerous PhD students. His career achievements, research excellence, and contributions to the field of energy storage solidify his reputation as a leading researcher in his domain.

Conclusion

Dr. Arnaud Demortière is a highly qualified candidate for the Research for Best Researcher Award due to his extensive contributions to materials science and energy storage. With an impressive academic background, including a PhD in Nanomaterials Science and an HDR, his research has made a significant impact on the field. His prolific output, with 90 publications, an H-index of 36, and over 5700 citations, demonstrates his expertise and influence. As a leader in major national and international research projects, such as ANR and Horizon 2020, he has successfully driven innovation in battery technology. Additionally, his receipt of the CNRS RISE Innovation Award 2023 for his startup project PreDeeption highlights his ability to bridge scientific research and practical applications. His mentorship of numerous PhD students and postdoctoral researchers further strengthens his candidacy, as he plays a vital role in shaping the next generation of scientists. Overall, Dr. Demortière exemplifies research excellence and innovation

Publication Top Notes

  • Improved ACOM Pattern Matching in 4D-STEM through Adaptive Sub-Pixel Peak Detection and Image Reconstruction
    • Authors: Folastre, N., Cao, J., Oney, G., Rauch, E.F., Demortière, A.
    • Year: 2024
    • Citations: 0
  • Identification of Degree of Ordering in Spinel LiNi0.5Mn1.5O4 through NMR and Raman Spectroscopies Supported by Theoretical Calculations
    • Authors: Oney, G., Sevillano, J.S., Yahia, M.B., Croguennec, L., Carlier, D.
    • Year: 2024
    • Citations: 1
  • Investigating Cathode Electrolyte Interphase Formation in NMC 811 Primary Particles through Advanced 4D-STEM ACOM Analysis
    • Authors: Gallegos-Moncayo, K., Jean, J., Folastre, N., Jamali, A., Demortière, A.
    • Year: 2024
    • Citations: 0
  • Binder-Free CNT Cathodes for Li-O2 Batteries with More Than One Life
    • Authors: Su, Z., Temprano, I., Folastre, N., Franco, A.A., Demortière, A.
    • Year: 2024
    • Citations: 0
  • Coupling Liquid Electrochemical TEM and Mass-Spectrometry to Investigate Electrochemical Reactions Occurring in a Na-Ion Battery Anode
    • Authors: Gallegos-Moncayo, K., Folastre, N., Toledo, M., Huo, D., Demortière, A.
    • Year: 2024 (Article in Press)
    • Citations: 0
  • Computational Model for Predicting Particle Fracture During Electrode Calendering
    • Authors: Xu, J., Paredes-Goyes, B., Su, Z., Demortière, A., Franco, A.A.
    • Year: 2023
    • Citations: 10
  • The Impact of Intergrain Phases on the Ionic Conductivity of the LAGP Solid Electrolyte Material Prepared by Spark Plasma Sintering
    • Authors: Cretu, S., Bradley, D.G., Feng, L.P.W., Demortière, A., Duchamp, M.
    • Year: 2023
    • Citations: 3
  • Molten Salt Synthesis of Multifaceted Pure-Phase Spinel LiNi0.5Mn1.5O4 Platelets
    • Authors: Oney, G., Olchowka, J., Demortière, A., Weill, F., Croguennec, L.
    • Year: 2023
    • Citations: 3
  • Study of the Delithiation Dynamics in a Single LiFePO4 Cathode Crystal via In Situ TEM Experiments and the Phase-Field Model
    • Authors: Yousfi, A., Gallegos, K., Jean, J., Boussinot, G., Demortière, A.
    • Year: 2023
    • Citations: 0
  • Study of Lithiation Dynamics in Primary Particles of Cathode Materials by In Situ Electrochemical Liquid TEM
    • Authors: Gallegos, K., Yousfi, A., Jean, J., Jamali, A., Demortière, A.
    • Year: 2023
    • Citations: 0

SUNG GYU PYO | Materials Science | Best Researcher Award

SUNG GYU PYO | Materials Science | Best Researcher Award

Prof SUNG GYU PYO, Chung-Ang University, South Korea

Based on the detailed profile of Prof. Sung Gyu Pyo, he appears highly suitable for the “Best Researcher Award.

Publication profile

google scholar

Research Interests

Nano Microstructural Control: Prof. Pyo’s expertise in the nano microstructural control and evolution in various materials demonstrates his innovative approach in advanced materials science. Semiconductor Materials: His work in semiconductor materials and processing, including process integration and interconnect technology, is at the forefront of technological advancements in electronics. Advanced Technologies: Prof. Pyo’s involvement in cutting-edge technologies like Atomic Force Microscopy (AFM), HBM 3D integration, MEMS/sensors, and packaging processes highlights his comprehensive understanding and contributions to modern engineering.

Education and Professional Experience

Educational Background: With a robust educational foundation, including post-doctoral work at prestigious institutions like MIT and Kyoto University, Prof. Pyo is well-equipped with advanced knowledge and research skills. Teaching and Leadership: His roles as a Professor and former Dean at Chung-Ang University, along with his exchange professorship at the University of Texas, Austin, underline his leadership in academia and his commitment to education. Industry Contributions: Prof. Pyo’s extensive experience in the semiconductor industry, including leadership positions at SK Hynix and MagnaChip Semiconductor, showcases his ability to bridge the gap between academic research and industrial application.

Achievements

Publications and Patents: With approximately 100 publications and 200 patents, Prof. Pyo has made significant contributions to scientific literature and technological innovation. His work has been widely cited, reflecting the impact and relevance of his research. Editorial Roles: Serving on editorial boards of journals like Electronic Materials Letter and Advanced Science, Engineering and Medicine, he has contributed to shaping the field’s research directions.

Selected Publications

Optimizing Nanocomposite Structures: His publication on enhancing charge storage in nanocomposites is a testament to his innovative research in energy materials. Manufacturing Techniques: Several of his patents and publications focus on advanced manufacturing techniques for semiconductor devices, indicating his practical contributions to improving technology.

Recognition and Memberships

Who’s Who Listings: Prof. Pyo’s inclusion in Who’s Who in the World highlights his global recognition as a leading researcher. Professional Memberships: His involvement with the Korea Research Council for Industrial Science and Technology and the System IC Foundry Research Group reflects his influence in advancing industrial science.

Conclusion

Prof. Sung Gyu Pyo’s extensive research in materials science, significant contributions to semiconductor technology, and influential roles in academia and industry make him a strong candidate for the “Best Researcher Award.” His innovative work and leadership have not only advanced scientific understanding but have also driven technological progress, making him highly deserving of this recognition.

Research focus

Dr. SG Pyo’s research primarily focuses on semiconductor devices, specifically in the development and enhancement of image sensors and metal wiring. His notable contributions include advancements in backside illuminated sensors, fabrication of electrocatalysts for water splitting, and innovations in photoelectrodes for perovskite solar cells. His work spans across multiple areas including materials science, nanotechnology, and surface science, making significant strides in both theoretical and applied aspects of semiconductor technology. Dr. Pyo’s research has been published in high-impact journals and patented, showcasing his expertise in enhancing device performance and efficiency.

🔬📸🌟🧪✨🔋

Publication top notes

Atomic layer etching applications in nano-semiconductor device fabrication

Heater block having catalyst spray means

Zn2SnO4-Based Photoelectrodes for Organolead Halide Perovskite Solar Cells

Method of forming a metal wiring in a semiconductor device

Backside illuminated image sensor

Fabrication and evaluation of nickel cobalt alloy electrocatalysts for alkaline water splitting

Development of a production-ready, back-illuminated CMOS image sensor with small pixels

Microstructural analysis of multilayered titanium aluminide sheets fabricated by hot rolling and heat treatment

Enhanced charge storage by optimization of pore structure in nanocomposite between ordered mesoporous carbon and nanosized WO3− x

Fabrication of multilayered titanium aluminide sheets by self-propagating high-temperature synthesis reaction using hot rolling and heat treatment