Dr. Emiliano Laudadio | Nanoscience Award | Best Researcher Award
Dr. Emiliano Laudadio, UniversitĆ Politecnica delle Marche, Italy
Emiliano Laudadio is a highly skilled researcher specializing in nanotechnology, particularly in the areas of biomolecular science and materials engineering. He has extensive experience in academia, having earned his Bachelor’s and Master’s degrees in applied biology before completing his Ph.D. in Biomolecular Science. Throughout his career, he has held various research positions at the Polytechnic University of Marche, focusing on the rational design of functionalized lipids, development of antioxidants, and nanomaterials for biomedical applications. Notably, Laudadio has been involved in several prestigious projects funded by organizations such as H2020, focusing on the development of plasmonic amplifiers, energy harvesting technologies, and smart nanomaterials for the Internet-of-Things. With a strong background in computational chemistry and experimental techniques such as electron paramagnetic resonance, he has contributed significantly to the field with over 70 publications in peer-reviewed journals, boasting an impressive total Impact Factor and citation count. Laudadio’s expertise lies in bridging theoretical insights with practical applications, making him a valuable asset in advancing nanotechnology research and innovation.
Professional Profile:
š Education:
Emiliano Laudadio completed his Bachelor’s degree in applied biology at Polytechnic University of Marche, where he laid the groundwork for his career in biomolecular science. He furthered his studies with a Master’s degree, specializing in compounds with biological activity, honing his expertise in this dynamic field. Pursuing his academic journey, Emiliano earned his PhD in Biomolecular Science, delving into the rational design of functionalized lipids tailored for antioxidant applications. His academic trajectory reflects a focused progression, marked by a commitment to exploring the intersection of biology and chemistry, ultimately contributing to advancements in biomolecular research.
š¼ Work Experience:
Emiliano Laudadio has amassed extensive research experience across various levels at the Polytechnic University of Marche, making significant contributions to the interdisciplinary realms of chemistry, biology, and engineering. His notable achievements encompass pioneering studies on biofilm infections, wherein he enhanced detection methods and identified inhibitors to combat antibiotic resistance. Additionally, he spearheaded groundbreaking research in the development of lipophilic antioxidants, crucial for oxidative stress management in biomedical applications. Furthermore, Emiliano’s expertise in molecular docking studies has been instrumental in accelerating drug discovery efforts, facilitating the identification of potential therapeutic agents. His multifaceted contributions underscore his pivotal role in advancing scientific knowledge and innovation at the intersection of diverse scientific disciplines.
š Awards and Recognitions:
Publication Top Notes:
- “Towards Graphene-based Asymmetric Diodes: A Density Functional Tight-Binding Study”
- Authors: E. Mohebbi, E. Pavoni, L. Pierantoni, E. Laudadio, D. Mencarelli
- Published in Nanoscale Advances, 2024, Volume 6(5), Pages 1548ā1555
- “Band Gap and THz Optical Absorption of SnSe and SnSe2 Nanosheets on Graphene: Negative Dielectric Constant of SnSe”
- Authors: E. Mohebbi, E. Pavoni, L. Pierantoni, E. Laudadio, D. Mencarelli
- Published in Results in Physics, 2024, Volume 57, Article Number 107415
- “Quantum Tunnelling in Hafnia-based Metal-Insulator-Metal Diodes: Atomistic-to-Continuum Modelling Approach and Experimental Validation”
- Authors: E. Pavoni, E. Laudadio, C.H. Joseph, L. Pierantoni, M. Aldrigo
- Published in Physica Scripta, 2024, Volume 99(2), Article Number 025511
- “Effect of Different Pseudopotentials on the Phonon Frequencies, Dielectric Constant, and Born Effective Charge of SnSe and SnSe2 Nanostructures: A Density Functional Perturbation Theory Study”
- Authors: E. Mohebbi, E. Pavoni, L. Pierantoni, E. Laudadio, D. Mencarelli
- Published in Journal of Physics and Chemistry of Solids, 2024, Volume 185, Article Number 111755
- “Strong Enhancement of Graphene Plasmonic Emission by Quantum Äerenkov Effect in Confined Structures”
- Authors: G.M. Zampa, D. Mencarelli, E. Mohebbi, L. Pierantoni, E. Laudadio
- Published in Applied Physics Letters, 2024, Volume 124(5), Article Number 054101