Prof. Dr. Habil. Dorina Emilia Creangă (b. 5 December 1955) is a distinguished full Professor of Physics at Alexandru Ioan Cuza University of Iași (UAIC) in Romania, with an established international reputation in nanomaterials, magnetic nanoparticles, radiation bioeffects and biophysics. Her long academic career spans experimental condensed matter physics, materials science and interdisciplinary biophysics. (phys.uaic.ro)
Prof. Creangă’s research integrates physics with biological and environmental applications, positioning her at the forefront of multidisciplinary science at UAIC.
Academic Background & Career
Professor Creangă has been part of the Faculty of Physics at UAIC for multiple decades, advancing through ranks to full professorship and contributing to both teaching and research leadership in physics. Her expertise includes the study of bioeffects of radiation and metallic nanoparticles, bioelectromagnetism and neurobiophysics. (phys.uaic.ro)
She has also served as a doctoral advisor and as a member of doctoral committees — for example, as a referent for Ph.D. theses in physics disciplines at UAIC. (uaic.ro)
Research Focus & Accomplishments
Professor Creangă’s work spans multiple intersecting domains:
Nanoparticles & Materials Science
She has conducted extensive research on magnetic nanoparticles — including iron oxide and magnetite nanoparticles — for applications in biology, environmental science and nanotechnology. Her studies cover synthesis, surface functionalization and bioeffects of metal-based nanosystems. (Google Scholar)
Bioeffects of Radiation
Prof. Creangă investigates how ionizing and electromagnetic radiation interacts with biological systems and nanomaterials, contributing to foundational understanding in bioelectromagnetism and neurobiophysics. Her labs combine physical measurements with biological assays to elucidate mechanisms of radiation influence. (phys.uaic.ro)
Interdisciplinary Biophysics
Her portfolio also intersects biophysics and materials physics, focusing on how physical stimuli (fields, particles) affect living systems — a key theme in radiation biology and environmental biophysics. (phys.uaic.ro)
Publication Output & Citation Impact
Based on bibliometric profiles (Google Scholar / ResearchGate):
- Total publications: ~236 research outputs indexed across journals and conference proceedings. (ResearchGate)
- Citations: ~1,969+ citations accumulated by her collective works (per ResearchGate metrics). (ResearchGate)
- Publication “reads”: ~41,896 reads on ResearchGate, indicating broad scholarly interest. (ResearchGate)
Note: Exact Clarivate Web of Science citation counts and h-index numbers are proprietary; however, based on public scholar profiles and citation aggregators, her work exhibits strong impact within nanomaterials and applied physics literature.
Most Cited / Representative Papers
Her research includes influential and widely cited studies such as:
- “Citric-acid-coated magnetite nanoparticles for biological applications”, The European Physical Journal E — a key early contribution bringing magnetic nanoparticles into biological contexts. (Google Scholar)
- Multiple interdisciplinary studies on nanoparticle synthesis and bioeffects, including contributions addressing environmental and health implications of metallic nanoparticles and magnetic nanocatalysts (visible via broad citation footprints in materials & environmental sciences). (Google Scholar)
Her body of work reflects robust engagement with nanomaterials science and biophysics, and she is often co-author on collaborative research spanning physics, chemistry and life sciences.
Books & Scholarly Chapters
While Professor Creangă’s main scholarly impact comes from journal articles and conference papers, her extensive publication history includes book chapters and contributions to edited volumes typical of interdisciplinary physics research — particularly in materials science and applied biophysics.
International Cooperation & Projects
Professor Creangă has a record of international collaboration, both through co-authored publications and participation in joint research activities:
- International labs and institutes: her research is linked with partnerships involving Joint Institute for Nuclear Research (Dubna, Russia) and other European research institutions in physics and materials science. (aosr.ro)
- Collaborative research networks focusing on nanoparticles, neutron scattering and environmental applications of materials — reflective of her multidisciplinary reach and collaborative engagement.
Her publications list multiple co-authors from institutions across Romania, Europe and beyond, demonstrating active international cooperation.
Projects & Research Leadership
Professor Creangă has been responsible for a range of research themes and projects centered on condensed matter and applied materials physics, including roles in cooperative frameworks with external research centers, often supervising Ph.D. work and leading experimental initiatives. (phys.uaic.ro)
Areas of project leadership include:
- Investigations of condensed matter using neutron scattering methods in cooperation with international research bodies. (phys.uaic.ro)
- Studies on magnetic and multilayered nanoparticles, including their environmental and bioeffects. (phys.uaic.ro)
Academic Service & Mentorship
At UAIC’s Faculty of Physics, she:
- Teaches advanced courses in applied physics, materials science and biophysics, contributing to curriculum development.
- Mentors graduate and doctoral researchers, supporting the next generation of physicists in interdisciplinary science fields.
- Serves on academic committees for doctoral defenses and research evaluation. (uaic.ro)
Professor Creangă’s longstanding academic engagement has helped sustain a vibrant research environment within UAIC’s physics community.
Summary
Professor Dorina Emilia Creangă, Ph.D. (Habil.) is a respected physicist at the Alexandru Ioan Cuza University of Iași, with a distinguished career in nanomaterials, magnetic nanoparticles, radiation bioeffects and biophysics. With ~236 publications and nearly 2,000 citations, her research connects fundamental physics with applied biological and environmental contexts, and she has established a broad collaborative footprint in European and international research networks. (ResearchGate)