Yong Yu | Materials | Best Researcher Award

Dr. Yong Yu , Qingdao University of Technology , China.

Dr. Yong Yu is a dedicated researcher in civil engineering at the School of Civil Engineering, Qingdao University of Technology, China. His expertise lies in high-performance concrete, crumb rubber concrete, and steam-cured concrete. With a strong academic background and a passion for sustainable materials, Dr. Yu has contributed extensively to advancing concrete technology. His research aims to enhance durability, eco-friendliness, and structural performance in construction. He actively collaborates with academia and industry to implement innovative solutions in civil engineering.

Publication Profile

Orcid

Scopus

Education & Experience

Ph.D. in Civil Engineering – Specialized in advanced concrete materials
Professor at Qingdao University of Technology – Leading research in sustainable concrete
Industry Collaboration – Works with construction firms on eco-friendly materials
Published Researcher – Numerous papers on high-performance and rubberized concrete

Suitability summary

Dr. Yong Yu, a distinguished researcher at the School of Civil Engineering, Qingdao University of Technology, China, is an exceptional candidate for the Best Researcher Award. His groundbreaking contributions to high-performance concrete, crumb rubber concrete, and steam-cured concrete have significantly advanced sustainable and durable construction materials. His expertise in optimizing concrete properties for enhanced strength, durability, and eco-friendliness makes him a leading innovator in civil engineering.

Professional Development

Dr. Yong Yu actively engages in cutting-edge research on sustainable concrete materials. His contributions focus on enhancing durability, strength, and environmental benefits in construction. He regularly publishes in top-tier journals, presents at international conferences, and collaborates with industry experts to develop innovative solutions. As a mentor, he supervises students and researchers in civil engineering, guiding them towards practical and impactful research. His work not only advances theoretical knowledge but also influences real-world construction practices, ensuring a balance between strength and sustainability.

Research Focus

Dr. Yong Yu’s research is centered on developing high-performance, durable, and eco-friendly concrete materials. His focus includes:

High-Performance Concrete (HPC): Enhancing durability, strength, and resistance to extreme conditions
Crumb Rubber Concrete: Utilizing recycled rubber to improve flexibility and sustainability
Steam-Cured Concrete: Optimizing rapid curing processes for efficient construction

His studies contribute to reducing carbon footprints, improving material longevity, and promoting sustainable construction worldwide.

Awards & Honors

Outstanding Researcher Award – Recognized for contributions to concrete innovation
Best Paper Award – Published groundbreaking research in material science
Excellence in Teaching Award – Acknowledged for mentoring and academic leadership
Industry Innovation Recognition – Collaborated on sustainable construction projects

Publication Top Notes

“Molecular and structural basis of the dual regulation of the polycystin-2 ion channel by small-molecule ligands” (2024) – Proceedings of the National Academy of Sciences
“Structural basis for human Cav1.2 inhibition by multiple drugs and the neurotoxin calciseptine” (2023) – Cell
“The diverse effects of pathogenic point mutations on ion channel activity of a gain-of-function polycystin-2” (2023) – Journal of Biological Chemistry
“Structures of the R-type human Cav2.3 channel reveal conformational crosstalk of the intracellular segments” (2022) – Nature Communications
“Structural basis for the severe adverse interaction of sofosbuvir and amiodarone on L-type Cav channels” (2022) – Cell
“The roles of two extracellular loops in proton sensing and permeation in human Otop1 channel” (2022) – Communications Biology
“The ion channel TRPM7 regulates zinc depletion-induced MDMX degradation” (2021) – Journal of Biological Chemistry

Silvia Zecchi | Materials Science | Best Researcher Award

Ms. Silvia Zecchi, Politecnico di Torino, Italy.

Silvia Zecchi, M.Sc. , is a dedicated researcher in Materials Science at Politecnico di Torino. She is pursuing a Ph.D. focused on polymer composites for low observable technology and stealth applications. Silvia is a member of the Carbon Group and the National Interuniversity Consortium of Materials Science and Technology (INSTM). She has gained practical experience as a Quality and Innovation Intern at Moncler and has contributed to high-impact research in carbon fiber production and recycling. Silvia has presented her work at prestigious conferences like ICTF and ECCM, and she is also a co-inventor of a patent for stealth technology.

Publication profile

Education and Experience

Doctorate in Materials Science and Technology, Politecnico di Torino (2022–Present).

Master’s Degree in Materials Engineering, Politecnico di Torino (2022).

Bachelor’s Degree in Materials Engineering, Politecnico di Torino (2019).

Visiting Ph.D. Student, National Technical University of Athens (2023–2024).

Intern, Quality and Innovation at Moncler, Milano, Italy (2022).

Suitability For The Award

Ms. Silvia Zecchi is an exceptional candidate for the Best Researcher Award, as she has demonstrated outstanding contributions to the field of Materials Science and Technology, specifically in the areas of polymer composites, carbon materials, and stealth technologies.

Professional Development

Silvia Zecchi is actively advancing her expertise in materials science through academic and professional engagements. As a Ph.D. candidate at Politecnico di Torino, her research explores innovative polymer composites for stealth and electromagnetic shielding technologies. Her visiting Ph.D. tenure at the National Technical University of Athens has expanded her international collaboration skills. Silvia’s active memberships in the Carbon Group and INSTM enhance her understanding of carbon materials. As a speaker at the ICTF 2023 conference and contributor to ECCM, she has gained recognition for her work in sustainable carbon fiber and recycling.

Research Focus

Silvia Zecchi’s research lies in advanced materials science with an emphasis on polymer composites and carbon fiber technologies. She focuses on sustainable production processes for lignin-derived carbon fibers, recycling automotive composites, and stealth applications for low observable technology. Her work contributes to enhancing material efficiency and environmental sustainability. Silvia’s patent on iron-based compounds for stealth technologies demonstrates her innovative approach to integrating materials science with real-world applications, including electromagnetic shielding and advanced defense systems.

Awards and Honors

Co-inventor of a patent for an iron-based compound usable in stealth technologies.
Invited Speaker at the 19th International Conference on Thin Films (ICTF) 2023.
Contributor to 21st European Conference on Composite Material with two impactful research papers.

Publications

Miscanthus-Derived Biochar as a Platform for the Production of Fillers for the Improvement of Mechanical and Electromagnetic Properties of Epoxy Composites, Scavuzzo, S., Zecchi, S., Cristoforo, G., Etzi, M., Bartoli, M. (2024) – C-Journal of Carbon Research, 10(3), 81 – 0 citations.
A Comprehensive Review of Electromagnetic Interference Shielding Composite Materials, Zecchi, S., Cristoforo, G., Bartoli, M., Boccaccio, M., Acerra, F. (2024) – Micromachines, 15(2), 187 – 7 citations.
Selective Laser Sintering versus Multi Jet Fusion: A Comprehensive Comparison Study Based on the Properties of Glass Beads-Reinforced Polyamide 12, Lupone, F., Padovano, E., Lambertini, V.G., Zecchi, S., Badini, C. (2024) – Advanced Engineering Materials, 26(3), 2301345 – 1 citation.
Effect of Red Mud Addition on Electrical and Magnetic Properties of Hemp-Derived-Biochar-Containing Epoxy Composites, Zecchi, S., Ruscillo, F., Cristoforo, G., Berruti, F., Tagliaferro, A. (2023) – Micromachines, 14(2), 429 – 5 citations.