about
Evaluation of surface and microstructure of differently plasticized chitosan films.High therapeutic efficiency of magnetic hyperthermia in xenograft models achieved with moderate temperature dosages in the tumor area.In-situ particles reorientation during magnetic hyperthermia application: Shape matters twice.Time-course assessment of the aggregation and metabolization of magnetic nanoparticles.Covalent coupling of gum arabic onto superparamagnetic iron oxide nanoparticles for MRI cell labeling: physicochemical and in vitro characterization.Recent advances in the preparation and application of multifunctional iron oxide and liposome-based nanosystems for multimodal diagnosis and therapy.Thermally sensitive gels based on chitosan derivatives for the treatment of oral mucositis.Dextran-lipase conjugates as tools for low molecular weight ligand immobilization in microarray development.Full enzymatic hydrolysis of commercial sucrose laurate by immobilized-stabilized derivatives of lipase from Thermomyces lanuginosa.Freeze-dried cylinders carrying chitosan nanoparticles for vaginal peptide delivery.Wound dressings based on chitosans and hyaluronic acid for the release of chlorhexidine diacetate in skin ulcer therapy.Versatile theranostics agents designed by coating ferrite nanoparticles with biocompatible polymers.Preparation of lipase-coated, stabilized, hydrophobic magnetic particles for reversible conjugation of biomacromolecules.Chitosan Ascorbate: A Chitosan Salt with Improved Penetration Enhancement PropertiesDevelopment of sponge-like dressings for mucosal/transmucosal drug delivery into vaginal cavityEffects of phase transfer ligands on monodisperse iron oxide magnetic nanoparticlesMagnetic nanocrystals for biomedical applicationsLarge scale production of biocompatible magnetite nanocrystals with high saturation magnetization values through green aqueous synthesisMultiplying Magnetic Hyperthermia Response by Nanoparticle AssemblingMultiplex environmental pollutant analysis using an array biosensor coated with chimeric hapten-dextran-lipase constructsProtein-Modified Magnetic Nanoparticles for Biomedical ApplicationsHydrolysis of fish oil by hyperactivated Rhizomucor miehei lipase immobilized by multipoint anion exchangeEffect of Nanoclustering and Dipolar Interactions in Heat Generation for Magnetic HyperthermiaThe internal structure of magnetic nanoparticles determines the magnetic response
P50
Q33402059-8E1B06BA-3879-42F8-80FE-83FE65210498Q34474687-9655AD63-1894-40C5-AAE7-D3A0D3AB374BQ37475928-9AB87163-C6DE-4F01-ACE9-80DB9370B854Q38768389-D834D7C2-E58D-461D-A6F5-7F7077A0DEAAQ38900499-95C26683-D02C-4FB8-A1A4-9D4E78FA00F8Q39030223-0CDCB01F-01E1-4600-A377-A35E1D8DAA57Q43255568-BF43331A-3EEA-4AF8-B914-93F85749A918Q45419805-12242C73-A297-4B7F-B443-B7D7F7A9D755Q50525488-72FE8621-FC45-4E1B-AD00-155B452D2963Q50640193-3E20765C-9227-4606-A73A-5952EA28D5C0Q50922251-BCF6D3FC-71A7-435F-ACB4-F5A27C4AE420Q51329936-6F77308C-AB56-4C17-8A88-52940EB1C47EQ51831442-9789908F-0636-47D3-AFD0-4466A0BCB0E0Q57378388-E280B6F8-28A3-4B33-95EA-FF6036AAC56DQ57382803-3846C39D-17A4-4445-80C7-71EA7642F69AQ57696791-228B95EA-50FC-4976-A989-AC59FD725D04Q57696803-7678FB4E-9790-4F25-9901-78AE71FD7546Q57696814-D278B29B-BC5B-4C5D-A0BC-4861FB221B99Q58164558-D0E86C57-0F5E-47C8-A7BF-4BF425A18B39Q59260471-05962B48-96A1-4CD5-92F4-E083DB30DEB4Q60446754-2C5CA346-1855-46A5-925A-1D0718F4DC88Q84108168-E806CC3E-F971-4D88-B82B-76EEB00A16CBQ87049874-163DB792-D981-4A09-868F-8CCD4379DF40Q87779926-C71FFB81-0CC1-40A9-961B-0C85FB5AA3D4
P50
description
onderzoeker
@nl
researcher, ORCID id # 0000-0003-2338-0379
@en
name
Marzia Marciello
@ast
Marzia Marciello
@en
Marzia Marciello
@es
Marzia Marciello
@nl
type
label
Marzia Marciello
@ast
Marzia Marciello
@en
Marzia Marciello
@es
Marzia Marciello
@nl
prefLabel
Marzia Marciello
@ast
Marzia Marciello
@en
Marzia Marciello
@es
Marzia Marciello
@nl
P106
P1153
55315485700
P31
P496
0000-0003-2338-0379