Dr. Anup Debnath is a materials physicist specializing in two-dimensional materials, magnetic nanostructures, transition-metal dichalcogenides, and MXene-based functional systems. His research focuses on understanding growth mechanisms, interfacial charge-transfer phenomena, and structure–property–performance relationships in emerging 2D architectures for electronic, magnetic, and energy-storage applications. He has developed strong expertise in advanced synthesis routes including hydrothermal, solvothermal, reflux, thermolysis, and chemical vapour deposition techniques for preparing high-quality TMDs, non-van der Waals magnets, and MXene derivatives. His experimental strengths extend across a broad spectrum of characterization tools such as XRD, Raman spectroscopy, XPS, TEM, AFM, SQUID magnetometry, PPMS measurements, UV-Vis spectroscopy, and FTIR, complemented by theoretical skills in Rietveld refinement and DFT-based calculations using MAUD and CASTEP. Dr. Debnath’s research contributions include revealing ferromagnetic and ferrimagnetic ordering in chemically synthesized 2D systems, designing MXene-integrated heterostructures, developing high-performance electrocatalysts, and engineering nanomaterials for hydrogen evolution, photothermal conversion, and supercapacitor applications. His publications in leading journals cover diverse topics ranging from magnetic coupling in low-dimensional systems to coercivity enhancement, phase engineering of TMDs, photothermal nanorods, hybrid perovskites, and advanced MXene composites. He has also contributed to conference proceedings and presented widely at national and international scientific platforms, earning recognition for excellence in both poster and oral presentations. His scholarly footprint continues to grow, currently reflected by 228 citations across 205 documents, 19 publications, and an h-index of 7, underscoring his expanding impact in the fields of experimental condensed matter physics and nanomaterials research.