Anas krime | Advanced Material | Young Researcher Award

Anas krime | Advanced Material | Young Researcher Award

Mr. Anas krime, Mohammed V University-Rabat, Morocco.

Mr. Krime Anas is a Ph.D. student in Materials and Environment Chemistry at the Faculty of Sciences, Mohammed V University in Rabat, Morocco. His research focuses on the valorization of Moroccan oil shales and the development of advanced materials for environmental purification. He has served as a temporary adjunct lecturer in various chemistry disciplines and completed research internships in petrochemical laboratories and international institutions. Fluent in English, French, and Arabic, Dr. Anas possesses strong laboratory skills and a multidisciplinary background in analytical chemistry, materials science, and environmental applications. He has published multiple papers and actively participates in scientific conferences.

Professional Profile

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Education and Experience

Education:

  • Ph.D. in Materials and Environment Chemistry – Mohammed V University, Rabat (Sep 2021 – Present)
    Thesis: Valorization of Moroccan oil shale for environmental applications

  • Master’s in Chemistry, Analytical Physics and Materials – Mohammed V University, Rabat (2019–2021)
    Thesis: Valorization of raw and activated oil shales from the Rif region

  • Bachelor’s (Licence) in Material Science Chemistry – Mohammed V University, Rabat (2016–2019)
    Thesis: Characterization of olive pomace

Research & Teaching Experience:

  •  Research Internship – University of Évora, Portugal (Sep 2024 – Present)
    Characterization of materials from oil shales

  • Adjunct Teacher – Analytical Solution Chemistry (2023–2024)

  • Adjunct Teacher – Foreign Languages (French), Faculty of Sciences (2024–2025)

  • Adjunct Teacher – Hydrology and Bromatology, Faculty of Medicine (2023–2024)

  • Adjunct Teacher – Kinetics & Catalysis, Faculty of Sciences (2022–2023)

  • Adjunct Teacher – Organic Chemistry, Faculty of Sciences (2021–2023)

  •  Internship – ONHYM Petrochemical Lab, Rabat (July–Aug 2023)

Suitability Summary for the Young Researcher Award

Mr. Krime Anas is a highly promising early-career scientist and a strong candidate for the Young Researcher Award, currently pursuing his Ph.D. in Materials and Environmental Chemistry at the Mohammed V University in Rabat, Morocco. His work is centered on the valorization of Moroccan oil shale and natural materials for environmental applications, particularly in wastewater treatment and pollutant adsorption. He exhibits the qualities of a driven, collaborative, and multidisciplinary researcher, actively contributing to scientific advancement through both academic and teaching roles.

Professional Development

Krime Anas has consistently pursued academic and professional development through formal training and international exposure. He has obtained several online certifications in key research tools including Scopus metrics, journal selection, reference management (Mendeley), and intellectual property. His participation in scientific events such as the International Congress on Materials & Structural Stability and national Ph.D. days demonstrates his commitment to research dissemination. Anas also completed project management training and ISO quality standards workshops, expanding his expertise beyond the lab. These experiences highlight his proactive approach to integrating technical, research, and organizational competencies in his scientific career.

Research Focus

Krime Anas’s research is focused on environmental remediation and advanced material synthesis. His core interest lies in adsorption processes, particularly using Moroccan oil shales and porous hydroxyapatites for the removal of heavy metals and organic pollutants from wastewater. He employs techniques like factorial design, SEM, XRD, and molecular dynamics to optimize material properties. His studies contribute to the development of eco-friendly and cost-effective sorbents, bridging the gap between material chemistry and environmental sustainability. His interdisciplinary work integrates materials science, analytical chemistry, and waste valorization to support cleaner industrial and environmental practices.

Awards and Recognition

Krime Anas has earned recognition for his impactful research in environmental material chemistry, particularly through multiple accepted papers in peer-reviewed journals focused on adsorption and wastewater treatment. His academic contributions have been showcased through poster presentations at prestigious events such as the International Congress on Materials & Structural Stability and the JNDJC conference for Ph.D. researchers. His work on valorizing Moroccan oil shale has received national attention for its innovation in eco-friendly pollutant removal. In addition to his scientific output, he has completed international internships and received numerous certifications in scientific publishing, research tools, and quality management systems.

Top Noted Publications

  • Extracting High Purity Nano‑silica from Oil Shale: Valorising a Neglected Natural Resource, Materials Research Bulletin, 2025

  • Low‑Cost Titania‑Hydroxyapatite (TiHAp) Nanocomposites Were Synthesized for Removal of Methylene Blue under Solar and UV Irradiation, Next Materials, 2025

  • Turning Waste into Wealth: Sustainable Amorphous Silica from Moroccan Oil Shale Ash, Recycling, 2025

  • Elimination of Copper (II) and Lead (II) from Wastewater Using Porous HAp: Comparative Study, International Journal of Chemical and Biochemical Sciences, 2023

  • Optimization of the Adsorption of Lead (II) by Hydroxyapatite Using a Factorial Design: Density Functional Theory and Molecular Dynamics, Frontiers in Environmental Science, 2023

Ajeet Chandra | Material Synthesis | Best Researcher Award

Ajeet Chandra | Material Synthesis | Best Researcher Award

Dr. Ajeet Chandra, Kyung Hee University, Seoul, South Korea.

Yingju Li | superalloys | Best Researcher Award

Yingju Li | superalloys | Best Researcher Award

Prof. Yingju Li , Institute of Metal Research, Chinese Academy of Sciences , China.

Yingju Li is a Researcher Fellow at the Institute of Metal Research, Chinese Academy of Sciences. He has made groundbreaking contributions to developing high-temperature alloys with exceptional glass corrosion resistance, improving corrosion resistance by 70%. Yingju has published over 70 papers and holds more than 50 patents. He has been recognized with prestigious awards for scientific and technological progress in China’s nonferrous metal industry and Shandong province. His work in material design, corrosion resistance, and superalloys continues to have a significant impact in the field. 🏅📚🔬

Publication Profile

Scopus

Education and Experience

  • Ph.D., Institute of Metal Research, Chinese Academy of Sciences 🎓
  • Researcher Fellow, Institute of Metal Research, Chinese Academy of Sciences 🔬
  • Contributor to National Key Research and Development Programs 🏆

Suitability Summary

Prof.Yingju Li, Ph.D., a Researcher Fellow at the Institute of Metal Research, Chinese Academy of Sciences, is a deserving candidate for the Best Researcher Award due to his outstanding contributions to material science, particularly in the development of high-temperature alloys and corrosion-resistant materials. His innovative research has not only advanced scientific knowledge but has also had significant industrial impact, particularly in fields such as aerospace and manufacturing.

Professional Development

Yingju Li has continuously advanced his professional development through collaboration with leading academic and research institutions like Xiamen University. He has been integral in designing and preparing advanced Co-based superalloys, significantly enhancing corrosion resistance and mechanical properties. His groundbreaking work in electromagnetic field-controlled solidification and material design has contributed to the development of novel alloys. Additionally, his continuous involvement in national and international research projects has enabled him to mentor and guide the future generation of researchers. He is an active member of the Electromagnetic Metallurgy Branch of the China Metal Society, further boosting his professional network. 🌟🤝📈

Research Focus 

Yingju Li’s research primarily focuses on the development of corrosion-resistant superalloys, material design, and solidification technologies. His work addresses key challenges in the preparation and improvement of alloys, such as overcoming issues with high density and poor thermal stability. He has innovated techniques like multi-element microalloying to strengthen magnesium alloys and has developed high-strength magnesium alloys that are recognized internationally. His research also emphasizes electromagnetic field-controlled solidification to improve material quality and casting precision, particularly in large complex thin-walled components. His contributions continue to shape advancements in materials science, benefiting both academia and industry. ⚙️🔧🧪

Awards and Honors

  • First Prize for Scientific and Technological Progress in China Nonferrous Metal Industry 🏅
  • Second Prize for Scientific and Technological Progress in China Nonferrous Metal Industry 🥈
  • Second Prize for Scientific and Technological Progress in Shandong Province 🥈
  • 56 Patents Published 📜
  • Over 70 Papers Published in International Journals 📚

Publication Top Notes

Effect of trace Al and Ti elements on borosilicate glass corrosion resistance of Inconel 690 alloy. Journal of Nuclear Materials, 606, 155626. 📄

Microstructure evolution and dynamic recrystallization mechanisms of Mg-Al-Ca-Zn-Sn-Mn alloys with different Ca contents during hot extrusion. Journal of Alloys and Compounds, 1011, 178400. 🔧

Erratum to “Thermal corrosion behavior of Inconel 693, Hastelloy N, and 310S in ceramic waste forming reactions”. Journal of Nuclear Materials, 604, 155468. 🔄

Thermal corrosion behavior of Inconel 693, Hastelloy N, and 310S in ceramic waste forming reactions. Journal of Nuclear Materials, 603, 155416. ⚙️

Finite Element Analysis of Dry Friction Wear of Al-based Composite Coatings. Cailiao Yanjiu Xuebao/Chinese Journal of Materials Research, 38(12), pp. 941–949. 🔍

Three-dimensional modeling of electromagnetic field and fluid flow during solidification of an aluminum alloy in a pulsed magnetic field. Materialwissenschaft und Werkstofftechnik, 55(12), pp. 1732–1742. 🧲