Assoc Prof .Dr .Manuela Angela Scarselli | Spectroscopy | Best Researcher Award

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Assoc Prof .Dr .Manuela Angela Scarselli | Spectroscopy | Best Researcher Award

Assoc Prof .Dr .Manuela Angela Scarselli | University of Rome Tor Vergata | Italy

šŸ‘©ā€šŸ”¬ Manuela Scarselli is an Associate Professor of Solid-State Experimental Physics at the University of ā€œTor Vergata,ā€ Rome. Her expertise includes scanning probe microscopy, low-energy diffraction, and spectroscopy techniques. She leads the Low-D Lab, specializing in materials synthesis and characterization. Her research spans carbon-based nanostructures, 2D materials, and surface analysis. With over 110 publications and active involvement in national and European projects, she is a prominent figure in nanoscience and nanotechnology. She teaches physics and nanoscience courses and serves on the PhD board. šŸ“ššŸ§Ŗ Her h-index highlights her impactful contributions to science.

Professional Profile

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Suitability

šŸ‘©ā€šŸ”¬ Manuela Scarselli is a distinguished researcher and academic, whose groundbreaking contributions to solid-state experimental physics and nanoscience make her an exemplary candidate for a Best Researcher Award. With over 110 peer-reviewed publications and a significant h-index, her work has profoundly impacted fields like material synthesis, characterization, and applications of nanostructures in sustainable energy, water purification, and medical technologies.

Her leadership in the Low-D Lab demonstrates her ability to advance innovative research, utilizing state-of-the-art techniques like STM, AFM, LEED, and XPS under ultrahigh vacuum conditions. Scarselliā€™s active involvement in national and European research projects, along with her role in organizing international conferences like NanoSea, underscores her commitment to fostering global scientific collaboration.

Education

šŸŽ“ Graduate Technician (1996ā€“2000): Physics Department, University of ā€œTor Vergata,ā€ Rome.

ProfessionalĀ 

šŸ”¬ Manuela Scarselli has cultivated an extensive career in experimental physics. She specializes in advanced microscopy and spectroscopy techniques, particularly STM, AFM, LEED, and XPS, under ultrahigh vacuum. She leads the Low-D Lab, equipped for cutting-edge material synthesis via chemical vapor deposition (CVD). Her projects include pioneering nanostructures for renewable energy, water purification, and medical applications. She actively participates in international conferences and is a longstanding organizer of NanoSea. With over two decades of teaching and research, her commitment to advancing nanoscience is unwavering. šŸŒšŸ“”šŸ“–

Experience

  • šŸ‘©ā€šŸ”¬ Researcher (2001ā€“2020): Physics Department, University of ā€œTor Vergata,ā€ Rome.
  • šŸ§‘ā€šŸ« Associate Professor (2021ā€“Present): Solid-State Experimental Physics, University of ā€œTor Vergata.ā€
  • šŸ† Recognition (2019): Achieved full professor qualification in solid-state experimental physics.
  • šŸ’¼ Research Grants (1991ā€“1996): Awarded by the CNR, University Ministry, and ā€œTor Vergata.ā€

Research Focus

šŸ” Manuela Scarselliā€™s research revolves around nanostructures and material characterization. She studies surfaces’ morphology, structure, and electronic properties under ultrahigh vacuum conditions using STM, AFM, LEED, and XPS. Her groundbreaking work on carbon-based nanostructures (e.g., nanotubes and nanospheres) spans applications like solar energy, water purification, and regenerative medicine. Additionally, she focuses on the growth and analysis of 2D materials, such as silicene and germanene, on diverse substrates. Her research is at the intersection of advanced physics, chemistry, and environmental sustainability. šŸŒŸšŸŒ±šŸ’”

Awards and Honors

  • šŸ† Recognition as Full Professor of Solid-State Experimental Physics (2019).
  • šŸŒ Member of the Organizing Committee, NanoSea Conference (2006ā€“Present).
  • šŸ“– PhD Board Member, Physics, University of ā€œTor Vergataā€ (Since 2021).

Publication Top notes

šŸ§  Functional rewiring across spinal injuries via biomimetic nanofiber scaffolds ā€“ PNAS (2020) | šŸ—“ļø Cited by: 27
šŸ’Ž High graphene permeability for room temperature silicon deposition: The role of defects ā€“ Carbon (2020) | šŸ—“ļø Cited by: 10
šŸ§Ŗ The potentially crucial role of quasi-particle interferences for the growth of silicene on graphite ā€“ Nano Research (2020) | šŸ—“ļø Cited by: 7
šŸŒŠ Heavy metal accumulation capacity of Axinella damicornis: A tool for bioremediation of polluted seawaters ā€“ Mediterranean Marine Science (2022) | šŸ—“ļø Cited by: 5
šŸ§¬ Silicene nanosheets intercalated in slightly defective epitaxial graphene on a 4H-SiC(0001) substrate ā€“ Surfaces and Interfaces (2022) | šŸ—“ļø Cited by: 3