Assist. Prof. Dr. Emilia Paone , Industrial Chemistry , Assistant Professor at Università degli Studi Mediterranea di Reggio Calabria, Italy
Dr. Emilia Paone is a dynamic and forward-thinking Fixed-Term Researcher (RTD-B) at the Università degli Studi Mediterranea di Reggio Calabria, specializing in Industrial Chemistry (SSD: CHIM/07). Born on September 14, 1990, in Reggio Calabria, Italy, she has emerged as a leading young scientist in the field of heterogeneous catalysis for sustainable chemical transformations. Her research pivots on the valorization of waste biomass and plastic residues into high-value chemicals and fuels. With over 41 peer-reviewed international publications, an h-index of 21, and significant international collaborations, Dr. Paone has built a formidable academic presence. She has held multiple national scientific qualifications for associate professorship in both CHIM/04 and CHIM/07. Her global perspective is enriched by research periods in Spain and collaboration with industrial partners. An active voice in green chemistry and environmental sustainability, she is a rising star driving innovation in catalytic materials and waste valorization technologies.
Professional Profile :
Orcid
Scopus
Summary of Suitability for Award:
Dr. Emilia Paone exemplifies the core qualities sought in a “Young Scientist Award” recipient. With a Ph.D. in Civil, Environmental, and Safety Engineering, she has consistently demonstrated scientific maturity, innovation, and dedication in the realm of green and sustainable chemistry. Her postdoctoral and fixed-term research roles, particularly under national initiatives such as DM 1062/2021 in thematic GREEN areas, highlight her alignment with sustainability and circular economy goals. She has published 41 peer-reviewed papers, authored 2 book chapters, and amassed over 2,000 citations with an h-index of 21, which is remarkable for a young researcher. Her work on heterogeneous catalysis, biomass valorization, and e-waste upcycling contributes meaningfully to global sustainability challenges. She has held international research roles, including ERASMUS+ staff mobility in Spain, showing global engagement and collaborative spirit. Moreover, she has achieved dual National Scientific Qualifications for Associate Professor roles, underscoring her excellence and leadership potential.Dr. Emilia Paone’s proven research excellence, international collaborations, impactful publications, and clear contribution to sustainable technologies make her a strong, deserving, and outstanding candidate for the “Young Scientist Award’. Her work not only meets but exceeds the typical expectations for this recognition, and she stands as a role model for early-career researchers in green and industrial chemistry.
🎓Education:
Dr. Paone earned her Bachelor’s (2009–2013) and Master’s Degrees (2013–2015) in Chemistry from the Università degli Studi di Messina. She then completed her Ph.D. in Civil, Environmental, and Safety Engineering (2015–2018) at the Università degli Studi Mediterranea di Reggio Calabria, specializing in Science and Technology, Materials, and Energy. Her doctoral thesis was titled “Transfer Hydrogenolysis of Lignin and its Derived Aromatic Ethers Promoted by Heterogeneous Bimetallic Pd-Based Catalysts.” She has also completed a qualification exam in chemistry exercise in 2015. Emilia further enhanced her academic training with research internships in both Italy and Spain, including studies on chemical equilibria and potable water analysis. Notably, she has enriched her learning with international research mobility under Erasmus+, and visiting positions in Spain, gaining practical expertise in nanostructured materials, catalysis, and green technologies.
🏢Work Experience:
Dr. Paone currently serves as a Fixed-Term Researcher (RTD-B) at Università degli Studi Mediterranea di Reggio Calabria (since March 2024), focusing on Industrial Chemistry. Previously, she held an RTD-A position (2022–2024) under Italy’s GREEN program (Action IV.6), collaborating with Capua 1880 s.r.l. on sustainable technologies. Earlier, as a postdoctoral researcher (2021), she worked on the environmental sustainability of materials recovered from lithium battery waste. From 2019 to 2021, she worked with the University of Florence and Reggio Calabria on nanostructured materials for detecting metal ions in solutions. During her Ph.D. and internships, she explored lignin valorization and heterogeneous catalysis. Internationally, she served as a Visiting Researcher and Professor at the University of Córdoba, Spain, and as a Ph.D. student researcher in the same institution. Her experience spans academia, industrial collaboration, and international teaching and research exchanges—showcasing both scientific excellence and applied innovation.
🏅Awards:
Dr. Emilia Paone has achieved significant recognition in the field of sustainable chemistry and heterogeneous catalysis through her impactful research and academic contributions. She holds two prestigious National Scientific Qualifications (Abilitazione Scientifica Nazionale) for the role of Associate Professor—one in Industrial Chemistry (CHIM/04 – 03/C2) awarded in 2023, and another in Principles of Chemistry for Applied Technologies (CHIM/07 – 03/B2) awarded in 2022. These qualifications are a testament to her high scientific standards and professional competence, as evaluated by national committees in Italy. Furthermore, her international engagement and excellence were highlighted when she was selected as a Visiting Researcher and Professor under the ERASMUS+ Staff Mobility program in 2023 at the Universidad de Córdoba, Spain. Her academic visibility is reinforced by her impressive bibliometric indicators, with over 2,000 citations and an h-index of 21, showcasing her growing influence in catalysis, green chemistry, and the valorization of waste to high-value products.
🔬Research Focus:
Dr. Paone’s research is at the cutting edge of green chemistry 🌱, with a core focus on heterogeneous catalysis for the valorization of waste and biomass into value-added products such as bioplastics, biofuels, and fine chemicals. Her work spans the transfer hydrogenolysis of lignin, reductive catalytic upgrading of plastic waste, and photocatalytic degradation of pollutants, contributing to sustainable circular economy models. She has developed MOF-derived, single-atom, and bimetallic Pd-based catalysts that efficiently convert industrial and e-waste streams. She actively collaborates on projects transforming orange peels, PET, polyolefins, and lithium battery residues into useful chemicals via eco-friendly methods. Her interdisciplinary approach combines catalyst design, nanomaterials, environmental remediation, and flow chemistry, with a strong emphasis on industrial scalability and green metrics. Dr. Paone’s research consistently addresses pressing climate and sustainability goals, establishing her as a key player in Europe’s scientific green transition.
Publication Top Notes:
Continuous flow production of γ-valerolactone from methyl-levulinate promoted by MOF-derived Al₂O₃–ZrO₂/C catalysts
Waste-minimized access to diarylamines and triarylamines via Csp²–N coupling under batch and flow conditions
E-Waste Wars: The Catalyst Awakens
Long-Term Preservation of Orange Peel Waste for the Production of Acids and Biogas
Direct Reuse of Spent Lithium-Ion Batteries as an Efficient Heterogeneous Catalyst for the Reductive Upgrading of Biomass-Derived Furfural
The reductive catalytic upcycling of polyolefin plastic waste
Hydrothermal Carbonization as Sustainable Process for the Complete Upgrading of Orange Peel Waste into Value-Added Chemicals and Bio-Carbon Materials
A New Biorefinery Approach for the Full Valorisation of Anchovy Residues: Use of the Sludge Generated during the Extraction of Fish Oil as a Nitrogen Supplement in Anaerobic Digestion
Electrospun Nanofibers and Electrochemical Techniques for the Detection of Heavy Metal Ions.
Self Standing Mats of Blended Polyaniline Produced by Electrospinning
Integral valorization of orange peel waste through optimized ensiling: Lactic acid and bioethanol production
Sustainably Sourced Olive Polyphenols and Omega-3 Marine Lipids: A Synergy Fostering Public Health