Dr. Madalin Ion Rusu, National Institute of R&D for Optoelectronics INOE 2000, Romania
Mădălin Ion Rusu, in Romania, is an established researcher (R3) at the National Institute of Research and Development for Optoelectronics (INOE 2000) in Magurele, Romania. With expertise in lasers, optical fiber communications, and nanostructured materials, his research focuses on laser-matter interactions, Raman spectroscopy, and photonic materials. He coordinates the INDICO laboratory, specializing in optical and complementary diagnostic methods. His work spans medical diagnostics, material characterization, and laser applications in industry and environmental sciences. He has contributed to national and international projects and has numerous scientific publications.
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Summary of Suitability for Excellence in Innovation
Madalin Ion Rusu appears to be a strong candidate for the Research for Excellence in Innovation award based on the following key aspects of his qualifications and experience:
🎓 Education
🔹 Ph.D. in Optical Engineering / Photonics (Details TBD)
🔹 Master’s Degree in Optoelectronics and Lasers (Details TBD)
🔹 Bachelor’s Degree in Physics / Engineering (Details TBD)
💼 Work Experience
Established Researcher (R3) – Scientific Researcher, Grade II
📅 August 2021 – Present
🏢 National Institute of Research and Development for Optoelectronics (INOE 2000), Magurele, Romania
🔬 Field: Applied research in constructive technological engineering, lasers, and optical fiber communications
🛠 Key Responsibilities:
✔️ Coordinator & Quality Officer of the INDICO Laboratory – Ensuring compliance with European Union technical regulations
✔️ Research on laser-matter interaction in nanostructured organic and inorganic films
✔️ Optimization & characterization of solid-state laser power sources
✔️ Laser applications in medicine, environment, and materials science
✔️ Raman spectroscopy for ex vivo and in vivo diagnostics in oncology and veterinary medicine
✔️ Development of innovative nanostructure-based systems for real-time malignant tumor margin detection
✔️ Fabrication & testing of optical components, lasers, and fiber optics devices
✔️ Expertise in PLD (Pulsed Laser Deposition) and Vertical Gradient Freezing (VGF) techniques
🛠 Operating Skills:
🟢 Micro-Raman Spectrometer (LABRAM HR 800 Horiba Scientific)
🟢 Spectroscopic Ellipsometer (UVISEL-Horiba Scientific)
🟢 PLD Workstation (PVD Products USA – 193nm & 248nm laser sources)
🟢 Electron-Beam Characterization (RHEED technique)
🏆 Achievements & Contributions
🏅 Key Research Contributions:
✔️ Advanced Raman spectroscopy for interdisciplinary applications (materials science, chemistry, biology, medicine)
✔️ Development of micro- and nanosystems for medical diagnostics in dental surgery
✔️ Fabrication of miniature solid-state lasers (Nd:YAG, Er:YAG) for medical and industrial applications
✔️ Research on ferromagnetic and non-ferromagnetic semiconductor systems
📄 Publications & Conferences:
✔️ Authored multiple scientific papers in high-impact journals
✔️ Presented research at national and international conferences
🔬 Project Involvement:
✔️ Contributed to various national and international research projects in optics, lasers, and nanotechnology
🏅 Awards & Honors
🏆 Recognition for Scientific Contributions (Details TBD)
🎖️ Awards for Research Excellence in Optoelectronics & Photonics (Details TBD)
📜 Grants & Fellowships in Laser Technologies & Optical Fiber Research (Details TBD)
Publication Top Notes:
Towards phase pure kesterite Cu2ZnSnS4 absorber layers growth via single step free sulfurization electrodeposition under a fix applied potential on Mo substrate
CITED: 30
Diagnosing clean margins through Raman spectroscopy in human and animal mammary tumour surgery: A short review
CITED: 23
Thermal, structural, magnetic and magneto-optical properties of dysprosium-doped phosphate glass
CITED: 22
Hydrogen retention in beryllium: concentration effect and nanocrystalline growth
CITED: 22
A new zinc phosphate-tellurite glass for magneto-optical applications
CITED: 21