CALDERA, Fabrizio
CALDERA, Fabrizio
CHIMICA
A Comparison between the Molecularly Imprinted and Non-Molecularly Imprinted Cyclodextrin-Based Nanosponges for the Transdermal Delivery of Melatonin
2023-01-01 Hoti, Gjylije; Ferrero, Riccardo; Caldera, Fabrizio; Trotta, Francesco; Corno, Marta; Pantaleone, Stefano; Desoky, Mohamed M H; Brunella, Valentina
A physicochemical, thermodynamical, structural and computational evaluation of kynurenic acid/cyclodextrin complexes
2021-01-01 Matencio, Adrián; Caldera, Fabrizio; Rubin Pedrazzo, Alberto; Khazaei Monfared, Yousef; K. Dhakar, Nilesh; Trotta, Francesco
A process for preparing a microporous carbon material and its use as absorption product
2014-01-01 Trotta, Francesco; Caldera, Fabrizio; Zanetti, Marco; Anceschi, Anastasia; Magnacca, Giuliana
Activity of Ailanthus altissima (Mill.) Swingle Extract as a Potential Bioherbicide for Sustainable Weed Management in Horticulture
2020-01-01 Matteo Caser, Sonia Demasi, Fabrizio Caldera, Nilesh Kumar Dhakar, Francesco Trotta, Valentina Scariot
Acute and Repeated Dose Toxicity Studies of Different β-Cyclodextrin-Based Nanosponge Formulations
2015-01-01 Shende, Pravin; Kulkarni, Yogesh A.; Gaud, R.S.; Deshmukh, Kiran; Cavalli, Roberta; Trotta, Francesco; Caldera, Fabrizio
beta-cyclodextrin nanosponge as flame retardant for polymers
2015-01-01 Luda Maria Paola, Trotta Francesco, Caldera Fabrizio, Fò Maurizio
Biological Effect Evaluation of Glutathione-Responsive Cyclodextrin-Based Nanosponges: 2D and 3D Studies
2020-01-01 Argenziano M.; Foglietta F.; Canaparo R.; Spagnolo R.; Della Pepa C.; Caldera F.; Trotta F.; Serpe L.; Cavalli R.
Comparative evaluation of solubility, cytotoxicity and photostability studies of resveratrol and oxyresveratrol loaded nanosponges
2019-01-01 Dhakar N.K.; Matencio A.; Caldera F.; Argenziano M.; Cavalli R.; Dianzani C.; Zanetti M.; Lopez-Nicolas J.M.; Trotta F.
Comportamento termico di additivi per polimeri costituiti da nanospugne di beta ciclodestrina
2014-01-01 Marco Zanetti; Pierangiola Bracco; Giulia Spezzati; Anastasia Anceschi; Fabrizio Caldera; Francesco Trotta
Controlled Release of DEET Loaded on Fibrous Mats from Electrospun PMDA/Cyclodextrin Polymer
2018-01-01 Claudio Cecone , Fabrizio Caldera, Francesco Trotta, Pierangiola Bracco, Marco Zanetti
Cyclic nigerosyl-1,6-nigerose-based nanosponges: An innovative pH and time-controlled nanocarrier for improving cancer treatment
2018-01-01 Caldera, F.; Argenziano, M.; Trotta, F.; Dianzani, C.; Gigliotti, L.; Tannous, M.; Pastero, L.; Aquilano, D.; Nishimoto, T.; Higashiyama, T.; Cavalli, R.*
Cyclic nigerosyl-nigerose as oxygen nanocarrier to protect cellular models from hypoxia/reoxygenation injury: Implications from an in vitro model
2021-01-01 Penna C.; Femmino S.; Caldera F.; Pedrazzo A.R.; Cecone C.; Alfi E.; Comita S.; Higashiyama T.; Trotta F.; Pagliaro P.; Cavalli R.
Cyclic oligosaccharides as active drugs, an updated review
2020-01-01 Matencio A.; Caldera F.; Cecone C.; Lopez-nicolas J.M.; Trotta F.
Cyclodextrin Monomers and Polymers for Drug Activity Enhancement
2021-01-01 Matencio Duran, Adrián; Hoti, Gjylije; Monfared, Yousef; Rezayat, Azam; Rubin Pedrazzo, Alberto; Caldera, Fabrizio; Trotta, Francesco
Cyclodextrin nanosponge for the GSH-mediated delivery of Resveratrol in human cancer cells
2021-01-01 Marco Palminteri, Nilesh Kumar Dhakar, Alessandra Ferraresi, Fabrizio Caldera, Chiara Vidoni, Francesco Trotta, Ciro Isidoro
Cyclodextrin nanosponge-sensitized enantiodifferentiating photoisomerization of cyclooctene and 1,3-cyclooctadiene
2012-01-01 Liang W.; Yang C; Nishijima M.; Fukuhara G.; Mori T.; Mele A.; Castiglione F.; Caldera F.;Trotta F.; Inoue Y.
Cyclodextrin-Based Nanosponges and Proteins
2022-01-01 Silvia Lucia Appleton; Yousef Khazaei Monfared; Francisco Jose Vidal-Sanchez; Fabrizio Caldera; Roberta Cavalli; Francesco Trotta; Adrian Matencio Duran
Cyclodextrin-Based Nanosponges as Perse Antimicrobial Agents Increase the Activity of Natural Antimicrobial Peptide Nisin
2022-01-01 Monfared Yousef khazaei.; Mahmoudian M.; Hoti G.; Caldera F.; Nicolas J.M.L.; Zakeri-Milani P.; Matencio Duran A.; Trotta Francesco.
Cyclodextrins as Anti-inflammatory Agents: Basis, Drugs and Perspectives
2021-01-01 Lucia Appleton, Silvia; Navarro-Orcajada, Silvia; Martínez-Navarro, Francisco Juan; Caldera, Fabrizio; López-Nicolás, José Manuel; Trotta, Francesco; Matencio, Adrián
Cyclodextrins for Lithium Batteries Applications
2023-01-01 Desoky M.M.H.; Caldera F.; Brunella V.; Ferrero R.; Hoti G.; Trotta F.
| Titolo | Data di pubblicazione | Autore(i) | File |
|---|---|---|---|
| A Comparison between the Molecularly Imprinted and Non-Molecularly Imprinted Cyclodextrin-Based Nanosponges for the Transdermal Delivery of Melatonin | 2023 | Hoti, Gjylije; Ferrero, Riccardo; Caldera, Fabrizio; Trotta, Francesco; Corno, Marta; Pantaleone, Stefano; Desoky, Mohamed M H; Brunella, Valentina | |
| A physicochemical, thermodynamical, structural and computational evaluation of kynurenic acid/cyclodextrin complexes | 2021 | Matencio, Adrián; Caldera, Fabrizio; Rubin Pedrazzo, Alberto; Khazaei Monfared, Yousef; K. Dhakar, Nilesh; Trotta, Francesco | |
| A process for preparing a microporous carbon material and its use as absorption product | 2014 | Trotta, Francesco; Caldera, Fabrizio; Zanetti, Marco; Anceschi, Anastasia; Magnacca, Giuliana | |
| Activity of Ailanthus altissima (Mill.) Swingle Extract as a Potential Bioherbicide for Sustainable Weed Management in Horticulture | 2020 | Matteo Caser, Sonia Demasi, Fabrizio Caldera, Nilesh Kumar Dhakar, Francesco Trotta, Valentina Scariot | |
| Acute and Repeated Dose Toxicity Studies of Different β-Cyclodextrin-Based Nanosponge Formulations | 2015 | Shende, Pravin; Kulkarni, Yogesh A.; Gaud, R.S.; Deshmukh, Kiran; Cavalli, Roberta; Trotta, Francesco; Caldera, Fabrizio | |
| beta-cyclodextrin nanosponge as flame retardant for polymers | 2015 | Luda Maria Paola, Trotta Francesco, Caldera Fabrizio, Fò Maurizio | |
| Biological Effect Evaluation of Glutathione-Responsive Cyclodextrin-Based Nanosponges: 2D and 3D Studies | 2020 | Argenziano M.; Foglietta F.; Canaparo R.; Spagnolo R.; Della Pepa C.; Caldera F.; Trotta F.; Serpe L.; Cavalli R. | |
| Comparative evaluation of solubility, cytotoxicity and photostability studies of resveratrol and oxyresveratrol loaded nanosponges | 2019 | Dhakar N.K.; Matencio A.; Caldera F.; Argenziano M.; Cavalli R.; Dianzani C.; Zanetti M.; Lopez-Nicolas J.M.; Trotta F. | |
| Comportamento termico di additivi per polimeri costituiti da nanospugne di beta ciclodestrina | 2014 | Marco Zanetti; Pierangiola Bracco; Giulia Spezzati; Anastasia Anceschi; Fabrizio Caldera; Francesco Trotta | |
| Controlled Release of DEET Loaded on Fibrous Mats from Electrospun PMDA/Cyclodextrin Polymer | 2018 | Claudio Cecone , Fabrizio Caldera, Francesco Trotta, Pierangiola Bracco, Marco Zanetti | |
| Cyclic nigerosyl-1,6-nigerose-based nanosponges: An innovative pH and time-controlled nanocarrier for improving cancer treatment | 2018 | Caldera, F.; Argenziano, M.; Trotta, F.; Dianzani, C.; Gigliotti, L.; Tannous, M.; Pastero, L.; Aquilano, D.; Nishimoto, T.; Higashiyama, T.; Cavalli, R.* | |
| Cyclic nigerosyl-nigerose as oxygen nanocarrier to protect cellular models from hypoxia/reoxygenation injury: Implications from an in vitro model | 2021 | Penna C.; Femmino S.; Caldera F.; Pedrazzo A.R.; Cecone C.; Alfi E.; Comita S.; Higashiyama T.; Trotta F.; Pagliaro P.; Cavalli R. | |
| Cyclic oligosaccharides as active drugs, an updated review | 2020 | Matencio A.; Caldera F.; Cecone C.; Lopez-nicolas J.M.; Trotta F. | |
| Cyclodextrin Monomers and Polymers for Drug Activity Enhancement | 2021 | Matencio Duran, Adrián; Hoti, Gjylije; Monfared, Yousef; Rezayat, Azam; Rubin Pedrazzo, Alberto; Caldera, Fabrizio; Trotta, Francesco | |
| Cyclodextrin nanosponge for the GSH-mediated delivery of Resveratrol in human cancer cells | 2021 | Marco Palminteri, Nilesh Kumar Dhakar, Alessandra Ferraresi, Fabrizio Caldera, Chiara Vidoni, Francesco Trotta, Ciro Isidoro | |
| Cyclodextrin nanosponge-sensitized enantiodifferentiating photoisomerization of cyclooctene and 1,3-cyclooctadiene | 2012 | Liang W.; Yang C; Nishijima M.; Fukuhara G.; Mori T.; Mele A.; Castiglione F.; Caldera F.;Trotta F.; Inoue Y. | |
| Cyclodextrin-Based Nanosponges and Proteins | 2022 | Silvia Lucia Appleton; Yousef Khazaei Monfared; Francisco Jose Vidal-Sanchez; Fabrizio Caldera; Roberta Cavalli; Francesco Trotta; Adrian Matencio Duran | |
| Cyclodextrin-Based Nanosponges as Perse Antimicrobial Agents Increase the Activity of Natural Antimicrobial Peptide Nisin | 2022 | Monfared Yousef khazaei.; Mahmoudian M.; Hoti G.; Caldera F.; Nicolas J.M.L.; Zakeri-Milani P.; Matencio Duran A.; Trotta Francesco. | |
| Cyclodextrins as Anti-inflammatory Agents: Basis, Drugs and Perspectives | 2021 | Lucia Appleton, Silvia; Navarro-Orcajada, Silvia; Martínez-Navarro, Francisco Juan; Caldera, Fabrizio; López-Nicolás, José Manuel; Trotta, Francesco; Matencio, Adrián | |
| Cyclodextrins for Lithium Batteries Applications | 2023 | Desoky M.M.H.; Caldera F.; Brunella V.; Ferrero R.; Hoti G.; Trotta F. |