Prof. Feng Guo  is a prominent materials scientist specializing in nonaqueous precipitation synthesis, nonhydrolytic sol-gel methods, and the preparation of low-dimensional inorganic materials. Currently a Professor at the National Engineering Research Center for Domestic & Building Ceramics, Jingdezhen Ceramic Institute , his research integrates physical chemistry with advanced ceramic development. Prof. Guo has led numerous national and provincial-level projects, published extensively in top-tier journals , and holds several patents in the field of ceramics and photocatalytic materials. His dedication to innovation and academic excellence has made significant contributions to the advancement of functional ceramics and powder technologies.

Publication Profiles

Orcid

Scopus

Education & Experience 

• 🎓 Ph.D. in Materials Science – Xiamen University

• 🧪 Postdoctoral Researcher – University of Science and Technology of China (2013–2016)

• 👨‍🏫 Lecturer – Jingdezhen Ceramic University (2016–2017)

• 👨‍🔬 Associate Professor – Jingdezhen Ceramic University (2017–2020)

• 🧑‍🔬 Professor – Jingdezhen Ceramic University (2020–Present)

Suitability for the Award

Dr. Feng Guo is exceptionally suited for the Outstanding Contribution Award due to his groundbreaking work in the field of materials science, particularly in the development of advanced ceramic materials through nonaqueous precipitation synthesis and nonhydrolytic sol-gel methods. With over a decade of impactful research, multiple national-level research projects, patented innovations, and a strong publication record in top-tier journals, Dr. Guo has made a profound and lasting contribution to ceramic chemistry and materials engineering. His achievements reflect a rare combination of scientific excellence, technological innovation, and academic leadership, fully aligning with the criteria of this prestigious award.

Professional Development

Prof. Feng Guo’s career has evolved through rigorous scientific training and progressive academic responsibilities . From conducting postdoctoral research at the prestigious University of Science and Technology of China to becoming a full Professor, he has continually advanced his research in materials synthesis, particularly focusing on sol-gel and precipitation methods . His leadership in multiple National Natural Science Foundation projects reflects both technical competence and research vision. As a journal reviewer 📝 and patent holder 🧾, he contributes actively to scientific communities, supporting knowledge transfer, innovation, and professional collaboration within the ceramics and materials science fields.

Research Focus 

Prof. Feng Guo’s research is deeply rooted in the physical chemistry of materials, with a strong emphasis on the synthesis of functional ceramics via nonaqueous and nonhydrolytic processes 🔬. His expertise spans low-dimensional inorganic materials, photocatalytic nanomaterials, and ceramic composites tailored for optical and electronic applications 💡📲. His innovative work includes developing eco-friendly sol-gel methods, creating efficient phosphors for LEDs 💡, and fabricating ceramic fibers and whiskers for structural reinforcement. His research contributes to sustainable materials engineering, advanced manufacturing, and the future of light-driven technologies, making him a key figure in cutting-edge ceramic materials development .

Awards & Honors 

• 🏆 Outstanding Youth of Jiangxi Province, China

• 🌟 Young Jinggang Scholar of Jiangxi Province, China

• 💰 Preferential Funding for Postdoctoral Students – Jiangxi Province

Publication Top Noted

1. Novel (Ni, Mn) co-doping CuFe₅O₈ black ceramic pigment with pinning strengthen effect in high-temperature black zirconia ceramic application – Ceramics International, 2025

2. Novel Co and Cr free, high-temperature black ceramic pigment based on (Ni, Mn) co-doping (CuFe)Fe₄O₈ – Journal of the European Ceramic Society, 2025

3. Insight into enhanced adsorption of Congo red by petal-like MgAl₂O₄: Effect of dehydroxylation – Journal of Physics and Chemistry of Solids, 2025

4. Effects of Sodium Sources on Nonaqueous Precipitation Synthesis of β″-Al₂O₃ and Formation Mechanism of Uniform Ionic Channels – Langmuir, 2025

5. Improved piezo-photocatalysis performance of Ba₁₋ₓSrₓTiO₃ nano-powders via synergistically optimizing phase ratio, defects and polarization – Journal of Alloys and Compounds, 2025

6. Enhanced fluorescence and water stability of Zr⁴⁺ ion-doped Cs₂SnCl₆: 5%Te phosphors for high-performance WLEDs – Journal of Alloys and Compounds, 2025

7. Low-temperature preparation of nano-sized Al₂TiO₅ powder via non-hydrolytic sol-gel route with Al metal as the aluminum source – Journal of Alloys and Compounds, 2025

8. Dual-shell protection enables highly efficient and stable all-inorganic perovskite composites for light-emitting-diodes – Journal of Alloys and Compounds, 2025