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Videos introduction.mp4👉Title of thesis: Research on the fabrication of high entropy alloys by electrochemical method.
👨🔬 Student: Truong Cong Hoang - Student ID: 22014494
🎓 Class - Course: K16-VLTT & Nano
👩🏫 Supervisor: Assoc. Prof. Dr. Le Manh Tu, Dr. Dinh Thi Hinh
🧠 Brief description of the abridged document:
The research topic on the fabrication of high entropy alloys by electrochemical method focuses on the study, nucleation mechanism and growth from FeNiCrCo alloy crystal seeds on the polar glassy carbon electrode from ethylene glycol solvent with the support of Sodium chloride. The results have been shown to successfully create high entropy alloys, contributing to the advancement of manufacturing materials with high catalytic activity, thereby providing potential applications in the fields of aerospace, energy and catalysis.
Video SVNCKH 2025.mp4👉Topic name: Synthesis of Cu2O materials by electrochemical method
👨🔬 Implementation group: Do Quoc Dai-22010302
🎓 Class – Course: K16-VLTT&Nano
👩🏫 Instructor: Assoc.Prof.Dr.Le Manh Tu
Dr.Dinh Thi Hinh
🧠 Brief description of the abridged document:
Study on the kinetics of Cu2O Research on the use of useful electrochemical methods that are positive for the environment using benefits in solar cells, photocatalysts, sensors,...
202505151025.mp4👉Topic name: Method of creating Pd-Sn materials by hydrothermal method applied as catalyst for water splitting reaction
👨🔬 Student: Phan Thi Hong Huong - 22014565
🎓 Class – Course: K16-VLTT&Nano
👩🏫 Instructor: Assoc. Prof. Dr. Le Manh Tu & Dr. Dinh Thi Hinh
🧠 Brief description of the abridged document:
The topic focuses on the method of creating Pd-Sn materials by hydrothermal method, promoting composition optimization to improve the catalytic efficiency for water splitting reaction. The synthesis of materials is expected to have high activity, good stability and potential for application in clean hydrogen production.
Video Đặng Bảo Thùy Ngân.mp4👉Topic name: Research on manufacturing amorphous Ni-Cr alloy by electrolysis in Ethylene Glycol environment
👨🔬 Implementation group:
Dang Bao Thuy Ngan: 21011403
🎓 Class – Course: K15-VLTT&Nano
👩🏫 Instructors: Assoc. Prof. Dr. Le Manh Tu, Dr. Dinh Thi Hinh
🧠 Brief description of the abridged document:
The topic focuses on researching the manufacturing of amorphous Ni-Cr material by electrolysis in EG solvent environment, and at the same time examining the catalytic activity of the material in different environments.
Video Trần Văn Huyên.mov👉Topic name: Research on manufacturing ceramic materials for non-application in quality storage
👨🔬 Student: Tran Van Huyen - MSV: 21013293
🎓Class - Course: K15-VLTT&Nano
👩🏫 Instructor: Dr. Dinh Thi Hinh
🧠 Brief description:
The topic focuses on developing ceramic materials without BNT base doped with Cu and Zr to improve energy storage efficiency, reduce internal loss. The results open up oriented applications in green, sustainable energy storage devices.
Several research projects are currently available at AEC LABORATORY:
Research thermodynamics, kinetics and mechanism of metal electronucleation and growth process.
Research on synthesis binary and ternary alloys of transition metals with platinum.
Enhancing the efficient production of hydrogen to meet the commercial-scale demand of hydrogen.
Developing renewable energy and hydrogen infrastructure to meet their sustainability goals and the growing energy demand.
Optimizing the fabrication and testing of large-scale fuel cell catalysts.
Research on recovery precious metals such as Pt, Ni, Co from spent platinum microelectrode and Ni-MH, lithium batteries.
Highly-motivated undergraduate students interested in our research are cordially welcome to join our group through internship, final-year projects, etc. Students with background in Chemistry, Chemical Engineering, Materials Science or other related fields, please email Dr. Tu Le Manh (tu.lemanh@phenikaa-uni.edu.vn) or Dr. Hinh Dinh Thi (hinh.dinhthi@phenikaa-uni.edu.vn) to explore the exciting opportunities.
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