Dr. Vincenzo Caligiuri | Raman spectroscopy Awards | Best Researcher Award
Dr. Vincenzo Caligiuri , Università della Calabria, Italy
Dr. Vincenzo Caligiuri, an eminent Italian researcher born on June 14, 1986, has made significant strides in the fields of optics, photonics, and materials science. With a PhD in Chemical, Physical, and Materials Science from the University of Calabria, Dr. Caligiuri has worked extensively in top-tier institutions across Europe and the USA, including the Italian Institute of Technology and Lawrence Berkeley Laboratory. His research, characterized by numerous publications in high-impact journals and prestigious grants like the Marie Sklodowska-Curie Fellowship, focuses on advanced metamaterials and their applications. Currently, he is a Time Determined Researcher at the University of Calabria and collaborates with the CNR Nanotec Institute and the Optoelectronics group at IIT Genova. Dr. Caligiuri is also dedicated to mentoring the next generation of scientists, supervising PhD students who have gone on to achieve notable success in academia and industry 🌍🔬📚.
Professional Profile:
Scopus
Google Scholar
Orcid
Education and Early Career
Dr. Caligiuri earned his PhD in Chemical, Physical, and Materials Science from the University of Calabria in 2017 under the supervision of Prof. Antonio De Luca. Prior to this, he completed his Master’s in Electronic Engineering at the same institution in 2013.
Current Positions and Affiliations
From 2022 to 2024, Dr. Caligiuri is serving as a Time Determined Researcher type A (RTDA) at the Department of Physics, University of Calabria. He is also affiliated with the CNR Nanotec institute in Rende and the Optoelectronics group at the Italian Institute of Technology in Genova.
Research Fellowships and International Collaborations
Dr. Caligiuri has held various research fellowships, including positions at the Consorzio Interuniversitario Nazionale per la Scienza e Tecnologia dei Materiali and the Italian Institute of Technology. His international experience includes prestigious fellowships at the Lawrence Berkeley Laboratory in the USA, Case Western Reserve University, and Denmark Technical University.
Research Achievements and Publications
Dr. Caligiuri’s research achievements are highlighted by his extensive work on metamaterials and photonic systems. He has published numerous papers in high-impact journals, earning him a robust citation record. His work is recognized for its interdisciplinary approach, bridging gaps between theoretical and applied sciences. With an H-index of 16 on Scopus and 18 on Scholar, Dr. Caligiuri’s influence in the scientific community is well established.
Supervision and Mentorship
Dr. Caligiuri has supervised several PhD students, guiding them in groundbreaking research on ENZ systems, light-matter interaction, and bio-inspired photonic architectures. His mentorship has led to successful careers for his students in academia and industry, including prestigious grants and positions at renowned institutions.
Funded Grants and Projects
Dr. Caligiuri has been the Principal Investigator and Co-Principal Investigator for various funded projects, including the Horizon 2020 ATTRACT and the “HyperLASE” project funded by the University of Milan. His ongoing project “ELIPHOMOS” focuses on engineering light-matter interaction in photoluminescent meta-organic systems.
Recognition and Impact
Dr. Caligiuri’s contributions to science have been recognized with several awards and honors. He has received two journal issue covers and is highly regarded for his innovative research and significant impact on the fields of nanotechnology and materials science.
Benzoyl halides as alternative precursors for the colloidal synthesis of lead-based halide perovskite nanocrystals
Citation : 536
Bright-Emitting Perovskite Films by Large-Scale Synthesis and Photoinduced Solid-State Transformation of CsPbBr3 Nanoplatelets
Citation : 144
Planar double-epsilon-near-zero cavities for spontaneous emission and Purcell effect enhancement
Citation : 83
Dielectric singularity in hyperbolic metamaterials: the inversion point of coexisting anisotropies