Ms. Alessandra Zanotti | Supercritical Fluids, Aerogels | Best Researcher Award
PhD Candidate at University of Salerno, Italy
Alessandra Zanotti is a dedicated chemical engineer with a passion for sustainable industrial development. Her academic journey has been driven by a commitment to exploring innovative solutions in the field of high-pressure technologies and supercritical fluid-assisted processes. With a strong background in scientific research, Alessandra specializes in the development of nanoporous composite structures, focusing on applications that contribute to environmental sustainability, including water treatment, drug delivery, and tissue engineering.
Profile
Education
Alessandra pursued her higher education at the University of Salerno, where she completed both her Bachelor’s and Master’s degrees in Chemical Engineering. Excelling in her studies, she graduated with the highest honors and was recognized as the best student in consecutive academic years. Building upon her expertise, she is currently engaged in doctoral research, pushing the boundaries of material science and engineering. Her academic achievements underscore her dedication to continuous learning and professional growth.
Experience
Alessandra has been actively involved in research, starting as a postgraduate fellow before advancing into her PhD program. Her experience includes working on supercritical fluid technologies, particularly in the extraction and atomization of natural extracts. As a doctoral candidate, she has expanded her research focus to the development of innovative nanostructures such as aerogels and membranes. Her hands-on experience with high-pressure technologies and various material characterization techniques has positioned her as a valuable contributor to industrial applications and scientific advancements.
Research Interests
Alessandra’s research is centered on high-pressure and supercritical fluid-assisted processes. She is particularly interested in exploring sustainable and environmentally friendly approaches for material synthesis. Her current work on nanoporous composite structures aims to enhance applications in critical areas such as water purification and medical engineering. Additionally, she actively participates in international conferences, sharing her findings with the scientific community and contributing to advancements in her field.
Awards
Recognized for her academic excellence, Alessandra has received notable accolades, including top honors in her undergraduate and postgraduate studies. She also holds a professional license as an Industrial Engineer, reflecting her technical proficiency and readiness to contribute to industrial advancements. Her involvement in specialized training programs, such as circular economy initiatives for plastic packaging, further highlights her commitment to sustainability.
Publications
Below are selected publications authored by Alessandra Zanotti:
Dye removal from wastewater using nanostructured chitosan aerogels produced by supercritical CO2 drying – Published in The Journal of Supercritical Fluids (February 2025)
Methyl Orange Adsorption Using Chitosan-Based Composite Aerogels Produced by Supercritical Gel Drying – Published in Polysaccharides (January 2025)
Production of Agarose-Hydroxyapatite Composites via Supercritical Gel Drying, for Bone Tissue Engineering – Published in Molecules (May 2024)
Production of Exopolysaccharide-Based Porous Structures for Biomedical Applications: A Review – Published in Nanomaterials (November 2023)
Post-processing of a lavender flowers solvent extract using supercritical CO2 fractionation – Published in Journal of the Taiwan Institute of Chemical Engineers (June 2023)
Fractionation of Marigold Waxy Extract Using Supercritical CO2 – Published in Separations (May 2023)
Supercritical Fluid Extraction of Essential Oil and Sclareol from a Clary Sage Concrete – Published in Molecules (May 2023)
Conclusion
Alessandra Zanotti is an emerging researcher in chemical engineering, actively contributing to the field through her specialized knowledge in supercritical fluid processes. Her commitment to sustainability, coupled with her technical expertise, enables her to address industrial challenges with innovative solutions. Through her research, educational achievements, and professional development, she continues to make a significant impact on material science and environmental applications.