Qiangguo Li | Materials Science | Best Researcher Award

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Prof. Qiangguo Li | Materials Science | Best Researcher Award

Teacher at Xihua University, China

Dr. Qiangguo Li is a dedicated researcher in materials science with a strong record of contributions spanning advanced steels, titanium alloys, magnesium alloys, coatings, and electrocatalysts. His work focuses on understanding microstructural behavior and developing innovative processing techniques to improve mechanical properties, wear resistance, fatigue performance, and corrosion resistance of structural materials. With numerous publications in respected international journals, he has established expertise in both fundamental studies and applied research, demonstrating originality and depth in his investigations. Dr. Li’s interdisciplinary approach has extended his impact to emerging fields such as electrocatalysis, showcasing his adaptability and vision for future technological needs. His consistent role as first or corresponding author highlights his leadership in research projects, while his broad range of collaborations reflects his ability to work across diverse teams. Overall, Dr. Li’s scholarly achievements and innovative contributions underscore his suitability as a leading figure in materials science research.

Professional Profile 

Scopus Profile | ORCID Profile 

Education

Dr. Qiangguo Li built a strong academic foundation in science and engineering through progressive studies at Xihua University and Sichuan University. He earned his bachelor’s degree in biology science, which provided him with a broad understanding of scientific inquiry and experimental methods. He then pursued a master’s degree in materials science, deepening his expertise in the structure and properties of materials. His academic journey culminated with a doctoral degree in materials science from Sichuan University, where he conducted advanced research on steel microstructures and mechanical behavior. This combination of biological science and materials science education equipped him with an interdisciplinary perspective, enabling him to approach research challenges with creativity and rigor. His academic progression reflects both dedication and specialization, positioning him as a well-trained scholar capable of bridging fundamental science with engineering applications in the field of materials research.

Experience

Dr. Li has developed extensive research and teaching experience as a faculty member at Xihua University, where he has actively engaged in both academic instruction and scientific exploration. His professional career is marked by participation in multiple projects focused on advanced steels, titanium alloys, magnesium alloys, and functional coatings. These projects not only contributed to theoretical advancements but also carried practical significance for industries requiring high-performance materials. Through collaborations with fellow researchers, he has built a diverse network of partnerships across related disciplines. His experience includes leadership roles as a first or corresponding author on numerous journal publications, demonstrating his capacity to guide research teams and mentor students. In addition, his involvement in experimental design, microstructural analysis, and materials characterization has provided him with broad technical expertise. Dr. Li’s career reflects a balance of teaching, research, and collaborative engagement, strengthening his role as both an educator and a materials science innovator.

Research Focus

The central focus of Dr. Li’s research lies in the design, processing, and performance evaluation of structural and functional materials. His studies on bainitic steel and quenched and partitioned steels have provided valuable insights into fatigue resistance, wear behavior, and strain hardening mechanisms, contributing to the development of stronger and more durable alloys. He has also explored magnesium and titanium alloys, investigating how microstructural control and elemental additions can enhance mechanical properties and extend industrial applications. Beyond structural alloys, Dr. Li has expanded his research into coatings and electrocatalysts, including novel catalysts for methanol oxidation and oxygen evolution reactions, reflecting his interdisciplinary approach. His work integrates microstructure-property relationships with processing innovations, aiming to develop materials that meet the demands of high-performance engineering environments. This comprehensive research focus demonstrates his ability to combine fundamental understanding with practical advancements, making his contributions highly relevant to both academia and industry.

Award and Honor

While specific awards and honors are not listed in the available profile, Dr. Li’s record of achievements indicates recognition within the academic and research community. His frequent role as first or corresponding author in high-quality international journals demonstrates professional respect for his contributions. The diversity of his collaborative work, extending into areas such as electrocatalysis and coatings, reflects trust from peers who acknowledge his expertise and reliability as a partner. His success in securing and contributing to multiple research projects also highlights recognition of his capability to deliver impactful results. Additionally, his continuous publication record in well-regarded journals suggests acknowledgment of his innovative approaches and scientific rigor. As his career progresses, his growing body of work positions him as a strong candidate for research awards and honors that celebrate innovation, interdisciplinary impact, and leadership in the field of materials science.

Publications Top Notes

  • Title: Effects of Ag and Sc Addition on the Dynamic Recrystallization and Mechanical Properties of As-Extruded Mg-8Sn-4Al Alloys
    Authors: Wandong Li, Xinyu Luo, Xiaopi Geng, Ruichen Yang, Qiangguo Li, Linhui Qiang, Shiqi Xu
    Year: 2024
    Citations: 1

  • Title: Microstructure and mechanical properties of electroless Ni–P–Si3N4–TiN composite coatings
    Authors: Qiangguo Li, Ming Ni, Weigang Huang
    Year: 2024
    Citations: 0

  • Title: Interface modification of TiAlN coated TiCN-based cermet through plasma nitriding
    Year: 2024
    Citations: 3

Conclusion

Dr. Qiangguo Li has established himself as a promising and impactful researcher in the field of materials science, with contributions spanning structural alloys, coatings, and electrocatalysts. His diverse and innovative research demonstrates both depth and breadth, addressing fundamental scientific questions while offering practical solutions for industrial applications. With a consistent record of publications, leadership roles in collaborative studies, and growing recognition through citations, he reflects the qualities of a forward-looking researcher. Continued focus on expanding international collaborations, industry applications, and sustainable material innovations will further strengthen his profile. Overall, Dr. Li’s achievements highlight his suitability for recognition such as the Best Researcher Award and position him as a valuable contributor to advancing materials science research globally.

ARACELI ESPINOZA VAZQUEZ | Materials Science | Best Researcher Award

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Dr. ARACELI ESPINOZA VAZQUEZ | Materials Science | Best Researcher Award

research at Universidad Veracruzana- Instituto de Ingenierían, Mexico

Dra. Araceli Espinoza Vázquez is a distinguished researcher specializing in materials science, corrosion inhibition, and electrochemical analysis. With a strong background in academia and research, she has contributed significantly to understanding corrosion mechanisms and developing innovative protective coatings. Her work has applications in industrial sectors such as petroleum and in the preservation of historically significant metals like bronze and silver. As a professor and researcher, she has mentored students in various engineering and chemistry disciplines, helping shape the next generation of scientists. She has held numerous teaching and research positions at prestigious institutions, including Universidad Nacional Autónoma de México (UNAM) and Universidad Veracruzana. Dra. Espinoza has also participated in multiple postdoctoral fellowships, furthering her expertise in electrochemical techniques and sustainable corrosion inhibitors. Her dedication to advancing materials science through both fundamental and applied research has earned her recognition within the academic and scientific communities, making her a leader in her field.

Professional Profile

Education

Dra. Espinoza Vázquez earned her Ph.D. in Materials Science and Engineering from the Universidad Autónoma Metropolitana-Azcapotzalco (UAM) in 2013, where she focused on the electrochemical characterization of corrosion inhibitors. Prior to this, she completed a Master’s degree in the same discipline at UAM in 2011, conducting extensive research on chemical interactions at metal surfaces. She obtained her Bachelor’s degree in Chemical Engineering from UAM in 2008, laying a strong foundation in material properties and industrial applications. Throughout her academic journey, she has specialized in electrochemical techniques such as impedance spectroscopy and polarization curves, which are crucial for evaluating corrosion resistance. Her education also includes international research experiences, including academic stays at Universidad Rovira & Virgili in Spain, where she explored organic corrosion inhibitors for steel protection. This diverse educational background has equipped her with the expertise to lead research projects in both academic and industrial settings.

Professional Experience

Dra. Espinoza Vázquez has an extensive academic and research career, with experience spanning over a decade. She is currently a faculty member at the Institute of Engineering at Universidad Veracruzana, where she teaches and conducts research on materials protection. Previously, she served as a professor at UNAM’s Faculty of Chemistry, instructing courses in metallurgy and electrochemical processing. Her experience also includes postdoctoral research at UNAM and the Institute of Materials Research, where she worked on corrosion inhibitors for hydrocarbons and cultural heritage preservation. She has collaborated with various universities and research centers, contributing to projects on nanostructured coatings and sustainable corrosion prevention methods. In addition to her academic roles, she has been actively involved in mentoring students at both undergraduate and postgraduate levels, fostering new talent in materials science. Her multidisciplinary experience reflects her commitment to bridging theoretical research with practical applications in engineering and industry.

Research Interests

Dra. Espinoza’s research primarily focuses on corrosion science, electrochemical techniques, and materials protection. She specializes in studying the mechanisms of corrosion and developing inhibitors from natural and synthetic compounds. A major aspect of her work involves applying electrochemical impedance spectroscopy (EIS) and polarization curves to evaluate metal degradation in aggressive environments. Her research extends to protective coatings for metals of historical and artistic value, such as bronze and silver, aiming to preserve cultural heritage artifacts. In recent years, she has explored biomedical applications of magnesium alloys, investigating corrosion-resistant materials for medical implants. Additionally, she has worked on developing mesoporous materials impregnated with corrosion inhibitors, advancing sustainable and eco-friendly protective technologies. Her interdisciplinary research spans industrial applications, environmental sustainability, and materials conservation, positioning her as a key contributor to the field of materials science and electrochemistry.

Awards and Honors

Dra. Espinoza has been recognized for her contributions to materials science and corrosion research through various prestigious honors. She has held the National Researcher Level I (SNI-I) distinction from Mexico’s National System of Researchers (CONACYT) since 2015, a testament to her impactful scientific work. She has also been awarded multiple postdoctoral research fellowships, including support from DGAPA-UNAM and CONACYT, for projects on corrosion inhibitors for industrial and cultural applications. Her publications in renowned journals and international conferences have further established her reputation as a leading researcher. She has also been an invited speaker at national and international symposiums, sharing insights on electrochemical protection strategies. Through her dedication to advancing knowledge in corrosion science and engineering, she continues to earn recognition within the scientific community. Her achievements highlight her significant role in academia and research, making her a strong candidate for awards celebrating excellence in scientific contributions.

Conclusion

Dra. Espinoza Vázquez is a highly qualified and accomplished researcher in materials science, particularly in corrosion studies. Her research spans academia, industry, and cultural heritage, demonstrating a well-rounded impact. While she is a strong candidate for the Best Researcher Award, further publications in high-impact journals and leadership in major projects could elevate her candidacy even further.

Publications Top Noted

  • Corrosion inhibition performance of expired dicloxacillin for X65 steel in 1 M HCl

    • Authors: Ramírez-Cano, J.A., Espinoza-Vázquez, A., Campos-Anaya, K.R., Galván-Martínez, R., Orozco-Cruz, R.
    • Year: 2025
    • Journal: Materials Letters
    • Citations: 0

  • Effect of the Use of Some Rare Earth Compounds as Corrosion Inhibitors for API 5L X70 Steel in Saline Medium

    • Authors: Hernández García, S., Espinoza-Vázquez, A., Palacios, L.N., Castro, M., Orozco-Cruz, R.
    • Year: 2025
    • Journal: Metals
    • Citations: 0

  • Application of electrochemical noise in the study of an epoxy coating with hematite nanoparticles

    • Authors: Ramírez-Fernández, J.A., Orozco-Cruz, R., Espinoza-Vázquez, A., Carmona-Hernández, A., Galván-Martínez, R.
    • Year: Not specified
    • Journal: Not specified
    • Citations: 0

  • Electrochemical and theoretical evaluation of loratadine as corrosion inhibitor for X65 steel in 1M HCl aqueous solution

    • Authors: Ramírez-Cano, J.A., Espinoza-Vázquez, A., Miralrio, A., Castro, M., Orozco-Cruz, R.
    • Year: 2024
    • Journal: International Journal of Electrochemical Science
    • Citations: 1

  • EIS study of Mimosa tenuiflora nanocontainers in a defective epoxy resin for the protection of low-carbon steel in a saline media

    • Authors: Méndez-Figueroa, H.G., Soria-Castro, M., Quintana-Owen, P., Galván-Martínez, R., Orozco-Cruz, R.
    • Year: Not specified
    • Journal: Not specified
    • Citations: 0

  • Electrochemical characterization of ZnO/Mt@Fe-TA nanocontainers tested as corrosion inhibitor for metallic structures in a 3.5% NaCl medium

    • Authors: Zambrano, P.N.T., Méndez-Figueroa, H.G., Espinoza-Vázquez, A., Martinez, R.G., Orozco-Cruz, R.
    • Year: Not specified
    • Journal: Not specified
    • Citations: 1