Dr Riyajul Islam | Computational Materials Science | Best Researcher Award

Dr Riyajul Islam, National Institute of Technology, Nagaland, India

Profile

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Academic Qualifications 🎓

Dr. Riyajul Islam is a highly qualified physicist specializing in computational materials science and magnetism 🧲. He earned his Ph.D. in Physics (2022) 🏆 from the National Institute of Technology Nagaland, focusing on first-principles modeling of electronic and magnetic materials 🖥️⚡. He completed his M.Sc. in Physics (2016) 📖 from Bodoland University, securing an 8.30/10 CGPA 📊, and his B.Sc. in Physics (2014) 🏗️ from Gauhati University, with a 7.5/10 CGPA 🏅. His strong academic foundation in condensed matter physics 🔬 has fueled his research in rare-earth-free permanent magnets and energy-efficient materials 🚀.

Technical Expertise 🏆

Dr. Riyajul Islam possesses exceptional skills in computational and experimental physics 🖥️🔬. He is highly proficient in Density Functional Theory (DFT) simulations 🧲, utilizing tools like WIEN2k, VASP, SPRKKR, Wannier90, TB2J, and Phonopy ⚙️ for electronic and magnetic property analysis. His experimental expertise includes XRD, VSM, SEM, TEM, TGA, FTIR, and induction heating 📡. Additionally, he has experience in High-Performance Computing (HPC) 🖥️⚡, enabling advanced materials research. His interdisciplinary skill set bridges theoretical modeling and practical characterization, making him a leading researcher in computational materials science and magnetism 🚀.

Teaching Experience 🏛️

Dr. Riyajul Islam has extensive experience in teaching physics at various academic levels. Currently, he is a Guest Faculty 🏛️ at National Institute of Technology Nagaland (2024 – Ongoing) 🇮🇳, where he teaches Condensed Matter Physics & Statistical Physics 📊 to M.Sc. students. Previously, he worked as a Teaching Assistant (2018-2022) 🏫, mentoring students in laboratory experiments 🧪 and guiding Master’s projects. He also served as a Lecturer (2016-2017) 👨‍🏫 at Kokrajhar Govt. College, teaching mechanics, optics, thermodynamics, and solid-state physics ⚛️. His expertise in physics education and mentorship has shaped numerous aspiring researchers in materials science and magnetism 🧲.

Research Focus 🔬

Dr. Riyajul Islam specializes in computational materials science, focusing on magnetic materials and electronic structure modeling 🏗️⚛️. His research aims to develop rare-earth-free permanent magnets by enhancing magnetocrystalline anisotropy 🧲 and optimizing electronic and structural properties 🔬. Using first-principles Density Functional Theory (DFT) calculations 🖥️, he investigates hexaferrites, transition metal alloys, and ferrite nanostructures. His studies contribute to energy-efficient magnetic materials ⚡, next-generation spintronics, and high-performance electronic components 📡. With significant work on strain-induced magnetism, tailored doping, and advanced simulations, his research is shaping the future of sustainable magnetism and material engineering 🚀.

Publication Top Notes📚

Effect of surface functionalization on the heating efficiency of magnetite nanoclusters for hyperthermia application

Prediction of large magnetic anisotropy for non-rare-earth based permanent magnet of Fe16− xMnxN2 alloys

First principle investigation of the electronic structure of spinel Fe₃O₄

First-principles study on the enhancement of structure stability and magnetocrystalline anisotropy energy of L10-ordered Mn1− xFexAlC compound for permanent magnet application

Large magnetic anisotropy in Co–Fe–Ni–N ordered structures: a first-principles study

Ab initio study of electronic structure and enhancement of magnetocrystalline anisotropy in MnFe2O4 for permanent magnet application

Historical overview and recent advances in permanent magnet materials