Search results for "Chitosan"

showing 10 items of 195 documents

Chitosan-heteropolyacid complex as high performance membranes for low temperature H2-O2 fuel cell

2014

Settore ING-IND/23 - Chimica Fisica ApplicataChitosan-heteropolyacid complex high performance membranes low temperature H2-O2 fuel cell PEMFC Electrochemical Impedance Spectroscopy XRD SEM EDX
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Fabrication and Characterization of Chitosan-Heteropolyacid complex as membranes for low temperature H2-O2 fuel cell

2015

In this work we describe an easy procedure to fabricate homogeneous CS-HPA polyelectrolyte films using phosphotungstic acid (PTA) as cross-linking agent. The re action between CS chains and PTA is controlled in order to allow fabricating PEC thin films, that can be easily peeled off from the support, cut to any size and shape, whose thickness can be controlled by setting reticulation and time and/or chitosan concentration

Settore ING-IND/23 - Chimica Fisica ApplicataFabrication and Characterization Chitosan-Heteropolyacid complex membranes low temperature H2-O2 fuel cell
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Heteropolyacids - Chitosan Membranes for H2/O2 Low Temperature Fuel Cells

2016

Proton exchange membrane fuel cells (PEMFCs) have received much attention in recent years because of their high power density, efficiency and zero-environmental pollution. As one of the key components in fuel cells, the proton exchange membrane is expected to have high proton conductivity and good electrochemical stability. In the attempt to promote PEMCFs commercialization, high cost of fuel cell systems and short lifecycle are the two main issues that need to be addressed, thus large research effort has been devoted in developing new polymer electrolytes that can replace the usually employed proton conductors, e.g. Nafion®, with other membranes of comparable performances but lower cost. A…

Settore ING-IND/23 - Chimica Fisica ApplicataHeteropolyacids Chitosan Membranes H2/O2 Low Temperature Fuel Cells
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Phosphomolybdic Acid and Mixed Phosphotungstic/Phosphomolybdic Acid Chitosan Membranes for H2/O2 Fuel Cells

2016

Proton exchange membrane fuel cells (PEMFCs) have received much attention in recent years because of their high power density, efficiency and zero-environmental pollution. As one of the key components in fuel cells, the proton exchange membrane is expected to have high proton conductivity and good electrochemical stability. In the attempt to promote PEMCFs commercialization, high cost of fuel cell systems and short lifecycle are the two main issues that need to be addressed, thus large research effort has been devoted in developing new polymer electrolytes that can replace the usually employed proton conductors, e.g. Nafion®, with other membranes of comparable performances but lower cost. A…

Settore ING-IND/23 - Chimica Fisica ApplicataPhosphomolybdic Acid Phosphotungstic/Phosphomolybdic Acid Chitosan Membranes H2/O2 Fuel Cells
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Galvanic deposition of Chitosan-AgNPs as antibacterial coating

Thanks to mechanical properties similar human bones, metallic materials represent the best choice for fabrication of orthopedic implants. Although metals could be widely used in the field of biomedical implants, corrosion phenomena could occur, causing metal ions releasing around periprosthetic tissues leading, in the worst cases, to the development of infections. In these cases, patients need prolonged antibiotic therapies that may cause bacterial resistance. Preventing bacterial colonization of biomedical surfaces is the key to limiting the spread of infections. Antibacterial coatings have become a very active field of research, strongly stimulated by the increasing urgency of identifying…

Settore ING-IND/23 - Chimica Fisica Applicatagalvanic deposition coating antibacterial silver nanoparticleschitosan
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Influence of heteropolyacid in enhancing proton conductivity of chitosan membranes for H2/O2 Fuel Cells

2016

To promote Proton Exchange Membrane Fuel Cells (PEMFCs) commercialization, large research effort has been devoted in developing new polymer electrolytes that can replace the usually employed proton conductors, e.g. Nafion®, with other membranes of comparable performances but lower cost. Chitosan (CS)-based membrane electrolyte is currently studied as alternative candidate for PEMFC application. Several works have shown that Heteropolyacids (HPAs) can be used to prepare Chitosan polyelectrolytes (PECs) to be employed as proton exchange membrane in low temperature fuel cell. In previous works [1-3] we have shown that CS/PTA membranes, prepared using alumina porous medium for the slow release …

Settore ING-IND/23 - Chimica Fisica Applicataheteropolyacid proton conductivity chitosan membranes H2/O2 Fuel Cells
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Composite Coatings of Chitosan and Silver Nanoparticles Obtained by Galvanic Deposition for Orthopedic Implants

2022

In this work, composite coatings of chitosan and silver nanoparticles were presented as an antibacterial coating for orthopedic implants. Coatings were deposited on AISI 304L using the galvanic deposition method. In galvanic deposition, the difference of the electrochemical redox potential between two metals (the substrate and a sacrificial anode) has the pivotal role in the process. In the coupling of these two metals a spontaneous redox reaction occurs and thus no external power supply is necessary. Using this process, a uniform deposition on the exposed area and a good adherence of the composite coating on the metallic substrate were achieved. Physical-chemical characterizations were car…

Settore ING-IND/24 - Principi Di Ingegneria ChimicaSettore ING-IND/23 - Chimica Fisica ApplicataPolymers and Plastics304L stainless steel Ag nanoparticles chitosan coating corrosion galvanic deposition orthopedic implantSettore ING-IND/17 - Impianti Industriali Meccanicichitosan; Ag nanoparticles; 304L stainless steel; coating; galvanic deposition; corrosion; orthopedic implantSettore ING-IND/34 - Bioingegneria IndustrialeGeneral ChemistryPolymers
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Hydroxyapatite/Chitosan/Collagen coatings through galvanic coupling

In this work, the attention was focused on Hydroxyapatite/ Chitosan/Collagen composite as biocoatings for application in orthopaedic devices. Hydroxyapatite was selected for its osteoconductivity due to its chemical structure similar to bones. Collagen has the same function since 90-95% of bone matrix is constituted of collagen fibers. Furthermore, chitosan are largely used yet in medical field (e.g. antibacterial agent or drug deliver) and in this work were used to create a synergic interaction with hydroxyapatite and collagen to increase the strength and bioactivity of coating. Coatings were fabricated by galvanic deposition process that has different advantages an it does not require ext…

Settore ING-IND/24 - Principi Di Ingegneria ChimicaSettore ING-IND/23 - Chimica Fisica ApplicataSettore BIO/10 - BiochimicaSettore ING-IND/34 - Bioingegneria IndustrialeGalvanic deposition hydroxyapatite 304 stainless steel orthopedic implants chitosan collagen corrosion cytocompatibility
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Deposition and characterization of Hydroxyapatite-Chitosan coatings on 304 SS for biomedical devices

2019

During the last years biomaterials have been largely investigated in order to perform and improve biomedical devices. As regards orthopedic field, the most common equipment used (such as implants, bone grafts or screws) are constituted by metallic materials (steel and titanium alloys), characterized by low/medium resistance to corrosion and low osteointegration ability. Furthermore, these factors could produce local inflammations of the tissues surrounding the implants, increasing kinetics of corrosion phenomena. Scientific community has focused the attention on biocoatings interposed between metal and aggressive environment in order to inhibit corrosion. Furthermore, these coatings are abl…

Settore ING-IND/24 - Principi Di Ingegneria ChimicaSettore ING-IND/23 - Chimica Fisica ApplicataSettore BIO/10 - BiochimicaSettore ING-IND/34 - Bioingegneria IndustrialeHydroxyapatite Chitosan steel substrates bioactivity galvanic process
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Protein delivery based on uncoated and chitosan-coated mesoporous silicon microparticles

2011

Mesoporous silicon is a biocompatible, biodegradable material that is receiving increased attention for pharmaceutical applications due to its extensive specific surface. This feature enables to load a variety of drugs in mesoporous silicon devices by simple adsorption-based procedures. In this work, we have addressed the fabrication and characterization of two new mesoporous silicon devices prepared by electrochemistry and intended for protein delivery, namely: (i) mesoporous silicon microparticles and (ii) chitosan-coated mesoporous silicon microparticles. Both carriers were investigated for their capacity to load a therapeutic protein (insulin) and a model antigen (bovine serum albumin) …

SiliconMaterials scienceSiliconBSAchemistry.chemical_elementNanotechnology02 engineering and technology010402 general chemistryPorous silicon01 natural sciencesChitosanchemistry.chemical_compoundDrug Delivery SystemsColloid and Surface ChemistryAdsorptionPorous siliconElectrochemistryAnimalsInsulinPhysical and Theoretical ChemistryBovine serum albuminChitosanbiologyProteintechnology industry and agricultureProteinsSerum Albumin BovineSurfaces and InterfacesGeneral Medicine021001 nanoscience & nanotechnologyequipment and suppliesControlled release0104 chemical sciencesMesoporous organosilicachemistryMicroscopy Electron Scanningbiology.proteinElectrochemical pore formationCattle:Investigación::33 Ciencias tecnológicas::3312 Tecnología de materiales [Materias]0210 nano-technologyMesoporous materialBiotechnology
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