Federica Leone
Polytechnic University of Turin
12 Papers
15 Citations
Federica Leone is an academic researcher from Polytechnic University of Turin. The author has contributed to research in topics: Chemistry & Mesoporous material. The author has an hindex of 8, co-authored 10 publications. Previous affiliations of Federica Leone include University of Turin.
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Papers
Functionalization of Cotton Fabrics with Polycaprolactone Nanoparticles for Transdermal Release of Melatonin.
TL;DR: The present research aimed to design a patch for transdermal delivery of melatonin, which was encapsulated in polycaprolactone (PCL) nanoparticles (NPs) by employing flash nanoprecipitation (FNP) technique.
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Acyclovir-Loaded Chitosan Nanospheres from Nano-Emulsion Templating for the Topical Treatment of Herpesviruses Infections.
Manuela Donalisio,Federica Leone,Andrea Civra,Rita Spagnolo,Özgen Özer,David Lembo,Roberta Cavalli +6 more
TL;DR: The in vitro skin permeation studies confirmed an improved amount of permeated acyclovir and the acy Clovir-NS complex displayed a higher antiviral activity than that of free acyClovir against both the HSV-1 and theHSV-2 strain.
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Fe-Doped Sol-Gel Glasses and Glass-Ceramics for Magnetic Hyperthermia
Francesco Baino,Elisa Fiume,Marta Miola,Federica Leone,Barbara Onida,Francesco Laviano,Roberto Gerbaldo,Enrica Verne +7 more
TL;DR: The glasses and glass-ceramics developed in this work show promise for applications in bone tissue healing which require the use of biocompatible magnetic implants able to elicit therapeutic actions, such as hyperthermia for bone cancer treatment.
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Drug nanosuspensions: a ZIP tool between traditional and innovative pharmaceutical formulations
Federica Leone,Roberta Cavalli +1 more
TL;DR: This review focuses on the state of the art of the nanocrystal-based formulation and describes theory characteristics, design parameters, preparation methods, stability issues, as well as specific in vivo applications.
Fe-doped bioactive glass-derived scaffolds produced by sol-gel foaming
TL;DR: In this article, multifunctional scaffolds were prepared by foaming Fe-containing sols according to a composition-optimized approach, which exhibited high specific surface area (16-80m2/g) and hierarchical porosity from the macro- (50-600m) to the meso-scale (4-20nm).
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