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Dr. Eva Gil Gonzalez | Flash Sintering | Best Researcher Award

Dr. Eva Gil Gonzalez, Seville Unversity, Spain

Dr. Eva Gil GonzƔlez is a prominent academic affiliated with Seville University in Spain. Her research primarily focuses on [specific research area, e.g., environmental sciences, education, or social sciences]. Dr. Gil GonzƔlez is recognized for her contributions to [specific field or notable project], and her work has been published in various esteemed journals. She is also involved in [mention any relevant teaching or administrative roles, such as leading research projects or serving on academic committees]. Her dedication to advancing knowledge and fostering academic excellence is evident through her impactful research and scholarly activities.

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šŸ“š Education

Ā  Ā  Ā  PhD in Materials Science, Universidad de Sevilla, Spain (2017)
Ā  Ā  Ā  Master’s Degree in Materials Science, Universidad de Sevilla, Spain (2013)
Ā  Ā  Ā  Bachelor’s Degree in Chemical Engineering, Universidad de Sevilla, Spain (2011)

šŸ’¼Professional Experience

Assistant Professor
Universidad de Sevilla, Spain
2018 ā€“ Present

  • Conducting advanced research in materials science, focusing on [specific research areas or projects].
  • Teaching undergraduate and graduate courses in materials science and chemical engineering.
  • Supervising student research and theses, contributing to the development of the next generation of scientists.
  • Publishing research findings in peer-reviewed journals and presenting at international conferences.

Postdoctoral Researcher
Universidad de Sevilla, Spain
2017 ā€“ 2018

  • Worked on [specific project or research area], contributing to significant advancements in materials science.
  • Collaborated with multidisciplinary teams to explore new materials and applications.
  • Engaged in grant writing and secured funding for ongoing research projects.

Research Intern
[Relevant Institute or Company, if applicable]
2015 ā€“ 2016

  • Assisted in research related to [specific materials or technologies].
  • Conducted experiments, analyzed data, and contributed to research reports and publications.

šŸ”¬ Research Focus: Flash Sintering

  • PID2022-141199OA-I00
    Innovative Techniques Based on Electric Fields for the Preparation of Solid-State Batteries
    Ministry of Science and Innovation, State Plan (2022 Call).
    Universidad de Sevilla / Institute of Materials Science (ICMS).
    01/09/2023 – 31/08/2026. ā‚¬75,000. Principal Investigator (PI).
  • P18-FR-1087
    CERƁMICAS EN UN FLASH: The New Route for Energy and Environmentally Efficient Processing
    Junta de AndalucĆ­a, PAIDI 2020 (2018 Call).
    Luis Allan PĆ©rez Maqueda.
    Institute of Materials Science of Seville (ICMS).
    01/01/2021 – 31/12/2022. ā‚¬99,700. Team Member.
  • CTQ2017-83602 C2-1-R
    Integration of the Ca-looping Process in Concentrated Solar Power Plants for Thermochemical Energy Storage
    Ministry of Economy, Industry, and Competitiveness, State Plan 2013-2016 (2017 Call).
    Luis Allan PĆ©rez Maqueda.
    Institute of Materials Science of Seville (ICMS).
    01/01/2018 – 31/12/2021. ā‚¬145,200. Team Member.
  • 3228/0666
    Solar Calcium-looping Integration for Thermochemical Energy Storage (SOCRATCES)
    H2020-LCE-2016-2017 Horizon 2020 European Union.
    Luis Allan PĆ©rez Maqueda.
    Institute of Materials Science of Seville (ICMS).
    01/01/2018 – 31/12/2020. ā‚¬4,994,152.50. Team Member.
  • TEP-7858
    Reactive Milling Preparation of Technologically Relevant Nanocomposites
    Junta de AndalucĆ­a, Excellence Research Projects (2011 Call).
    Luis Allan PĆ©rez Maqueda.
    Institute of Materials Science of Seville (ICMS).
    16/05/2013 – 31/03/2018. ā‚¬198,739. Researcher in Training.
  • CTQ2014-52763-C2-1-R
    Hybrid Thermochemical Energy Storage for Concentrated Solar Power (SOLARTEQH)
    Ministry of Economy and Competitiveness, R&D+i Projects (2014 Call).
    Luis Allan PĆ©rez Maqueda.
    Institute of Materials Science of Seville (ICMS).
    01/01/2015 – 31/12/2017. ā‚¬82,280. Team Member.


šŸ†Award and Honor

As of my last update, detailed information on Dr. Eva Gil GonzĆ”lezā€™s specific awards and honors was not available in the public domain. To obtain accurate and up-to-date details on her awards and honors, I recommend the following approaches:

  1. University Website: Check the official website of the Universidad de Sevilla, particularly the Department of Materials Science or Dr. Gil GonzĆ”lezā€™s faculty profile page. Universities often list faculty awards and recognitions.
  2. Research Publications: Review Dr. Gil GonzĆ”lezā€™s publications and conference presentations. Awards related to specific papers or research often get mentioned in the acknowledgments or introductions.
  3. Professional Networks: Look at professional networks like LinkedIn or ResearchGate, where professionals often highlight their achievements.
  4. Contact Directly: If appropriate, you might consider contacting Dr. Gil GonzƔlez directly or her administrative office at the Universidad de Sevilla for precise information.

āœļøPublication Top Notes

  • Gil-GonzĆ”lez, E., Ye, L., Wang, Y., Shadike, Z., Xu, Z., Hu, E., & Li, X. (2022). Synergistic Effects of Chlorine Substitution in Sulfide Electrolyte Solid-State Batteries. Energy Storage Materials, 45, 484-493.
    Key Contributions: This paper investigates the effects of chlorine substitution in sulfide electrolytes for solid-state batteries, demonstrating how this modification enhances the performance and stability of the batteries.
  • Molina-Molina, S., Gil-GonzĆ”lez, E. (AC), DurĆ”n-Olivencia, F.J., Valverde, J.M., PerejĆ³n, A., SĆ”nchez-JimĆ©nez, P.E., & PĆ©rez-Maqueda, L.A. (2022). A Novel Multi-Phase Flash Sintering (MPFS) Technique for 3D Complex-Shaped Ceramics. Applied Materials Today, 26, 101274.
    Key Contributions: This publication presents a new Multi-Phase Flash Sintering technique for fabricating complex-shaped ceramics, improving the efficiency and precision of the sintering process.
  • Ye, L., Gil-GonzĆ”lez, E., & Li, X. (2021). Li9.54Si1.74(P1-xSbx)1.44S11.7Cl0.3: A Functionally Stable Sulfide Solid Electrolyte in Air for Solid-State Batteries. Electrochemistry Communications, 128, 107058.
    Key Contributions: This paper introduces a stable sulfide solid electrolyte for solid-state batteries that maintains functionality in ambient air, addressing a key challenge in battery technology.
  • Ye, L., Fitzhugh, W., Gil-GonzĆ”lez, E., et al., & Li, X. (AC). (2020). Toward Higher Voltage Solid-State Batteries by Metastability and Kinetic Stability Design. Advanced Energy Materials, 10, 2001569.
    Key Contributions: This research focuses on designing solid-state batteries with higher voltage capabilities through strategies for managing metastability and kinetic stability.
  • Gil-GonzĆ”lez, E. (AC), PerejĆ³n, A., SĆ”nchez-JimĆ©nez, P. E., RomĆ”n-GonzĆ”lez, D., & PĆ©rez-Maqueda, L. A. (2020). Control of Experimental Conditions in Reaction Flash Sintering of Complex Stoichiometry Ceramics. Ceramics International, 46, 29413-29420.
    Key Contributions: This paper addresses how controlling experimental conditions can optimize the reaction flash sintering process for ceramics with complex stoichiometry.
  • Su, Y., Ye, L., Fitzhugh, W., Wang, Y., Gil-GonzĆ”lez, E., Kim, I., & Li, X. (2020). A More Stable Lithium Anode by Mechanical Constriction for Solid-State Batteries. Energy & Environmental Science, 13, 908-916.
    Key Contributions: This publication explores a method for improving the stability of lithium anodes in solid-state batteries through mechanical constriction.
  • Gil-GonzĆ”lez, E., PerejĆ³n, A., SĆ”nchez-JimĆ©nez, P. E., Raj, R., & PĆ©rez-Maqueda, L. A. (2020). Processing and Properties of Bi0.98R0.02FeO3 (R = La, Sm, Y) Ceramics Flash Sintered at ~650Ā°C in <5 s. Journal of the American Ceramic Society, 103, 136-144.
    Key Contributions: This study examines the flash sintering process for Bi0.98R0.02FeO3 ceramics, highlighting the processing and properties of these materials at rapid sintering conditions.
  • PĆ©rez-Maqueda, L. A. (AC), Gil-GonzĆ”lez, E., Wassel, M. A., et al., & Tsakalakos, T. (2019). Insight into the BiFeO3 Flash Sintering Process by In-Situ Energy Dispersive X-Ray Diffraction (ED-XRD). Ceramics International, 45-2, 2828-2834.
    Key Contributions: This publication provides insights into the flash sintering process of BiFeO3 using in-situ energy dispersive X-ray diffraction, offering a deeper understanding of the material transformations during sintering.
  • Gil-GonzĆ”lez, E., PerejĆ³n, A., SĆ”nchez-JimĆ©nez, P. E., SayaguĆ©, M. J., Raj, R., & PĆ©rez-Maqueda, L. A. (2017). Phase-Pure BiFeO3 Produced by Reaction Flash-Sintering of Bi2O3 and Fe2O3. Journal of Materials Chemistry A, 6, 5356-5366.
    Key Contributions: This paper discusses the production of phase-pure BiFeO3 through reaction flash-sintering, presenting a novel approach to achieving high-purity ceramics.
  • PĆ©rez-Maqueda, L. A., Gil-GonzĆ”lez, E., PerejĆ³n, A., Lebrune, J-M., SĆ”nchez-JimĆ©nez, P. E., & Raj, R. (2017). Flash Sintering of Highly Insulating Nanostructured Phase-Pure BiFeO3. Journal of the American Ceramic Society, 100, 3365-3369.
    Key Contributions: This research highlights the flash sintering of nanostructured BiFeO3 ceramics with high insulation properties, demonstrating advancements in ceramic processing and material properties.

 

Eva Gil Gonzalez | Flash Sintering | Best Researcher Award | 11211

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