Search results for "XPS"

showing 10 items of 66 documents

Photoelectrochemical and XPS Characterization of Passive films Grown on 316L Stainless Steel in High Temperature Water

2015

One of the major materials challenge for continued safe, reliable and cost-effective utilization of watercooled nuclear reactors for electricity production is development of improved understanding of the synergistic fundamental mechanisms responsible for corrosion and stress corrosion cracking degradation of austenitic steels and nickel base alloys

Settore ING-IND/23 - Chimica Fisica ApplicataPhotoelectrochemical and XPS Characterization Passive films 316L Stainless Steel High Temperature Water
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Selective oxidative dehydrogenation of ethane over SnO2-promoted NiO catalysts

2012

[EN] Ni-Sn-O mixed oxides catalysts have been investigated for the oxidative dehydrogenation of ethane. The catalysts were prepared through the evaporation of aqueous solutions of nickel nitrate and tin oxalate and finally calcined in air at 500 degrees C for 2 h. These materials have been characterized by several techniques (N-2-adsorption, X-ray diffraction, High-Resolution Electron Microscopy, temperature programmed reduction, X-Ray Photoelectron Spectroscopy, Fourier Transformed Infrared Spectroscopy of adsorbed CO and O-18/O-16 isotope exchange). The addition of just a tiny amount of tin highly increases the selectivity to ethylene (from ca. 40% to 80-90%). Thus, high selectivity to et…

SnO2-promotedInorganic chemistrychemistry.chemical_elementInfrared spectroscopyTin oxideCatalysisOxalateCatalysisEthane ODHNiO catalystsEthane oxidationchemistry.chemical_compoundNickelEthyleneTin oxidechemistryDehydrogenationPhysical and Theoretical ChemistryTemperature-programmed reductionTinOxidative dehydrogenation of ethaneNickel oxideCatalyst characterization (XPS HREM oxygen isotope exchange FTIR CO adsorbed)
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Iron oxides nanoparticles and titanate nanotubes dedicated to multimodal imaging and anticancer therapy

2013

The new implementations of nanoparticles in the medical field are one of the essential factors of the medical progress expected at the beginning of this XXIst century. Thus, the domain of the medical imaging is also affected by this technological evolution. This work consisted in developing theranostic probes with iron oxides nanoparticles (SPIO) and titanate nanotubes (TiONts) for multimodal imaging (magnetic/nuclear or magnetic/optical) and also possessing a therapeutic effect (hyperthermia/PDT or radiosensitization/PDT).The titanate nanotubes of this study have an average length of about 150 nm and were obtained by Kasuga's hydrothermal synthesis. These nanotubes present an outside diame…

Sondes théranostiquesPhthalocyaninesCytotoxicityTitanate nanotubes[PHYS.PHYS.PHYS-CHEM-PH] Physics [physics]/Physics [physics]/Chemical Physics [physics.chem-ph]Macrocyclic chelating agentPhtalocyaninesNanohybridesRadiomarquageMultimodal imagingCytotoxicitéXPSNanotubes de titanateZebrafish[PHYS.PHYS.PHYS-MED-PH] Physics [physics]/Physics [physics]/Medical Physics [physics.med-ph]Agents macrocycliquesNanohybridsRadiolabellingSPECT/CTIOAPTESTheranostic probesImagerie multimodaleSPIOMRIIRM
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CORROSION RESISTANCE OF DIFFERENT STAINLESS STEEL GRADES IN FOOD AND BEVERAGE INDUSTRY

2020

Stainless steel EIS XPS Passivity Transpassivity Food industry Ions release ICP-OES Polarization resistance Passive films Chromium Duplex Austenitic Photoelectrochemistry Biofilm NaClO Cleaning Disinfection Corrosion resistance Mott-Schottky Corten Carbon steelSettore ING-IND/23 - Chimica Fisica Applicata
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Studio del degrado indotto da sali solubili su materiali lapidei nelle ex-carceri dello Steri a Palermo

2009

Steri XPS XRDSettore FIS/07 - Fisica Applicata(Beni Culturali Ambientali Biol.e Medicin)
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Multiscale Investigation of the Structural, Electrical and Photoluminescence Properties of MoS2 Obtained by MoO3 Sulfurization

2022

In this paper, we report a multiscale investigation of the compositional, morphological, structural, electrical, and optical emission properties of 2H-MoS2 obtained by sulfurization at 800 °C of very thin MoO3 films (with thickness ranging from ~2.8 nm to ~4.2 nm) on a SiO2/Si substrate. XPS analyses confirmed that the sulfurization was very effective in the reduction of the oxide to MoS2, with only a small percentage of residual MoO3 present in the final film. High-resolution TEM/STEM analyses revealed the formation of few (i.e., 2–3 layers) of MoS2 nearly aligned with the SiO2 surface in the case of the thinnest (~2.8 nm) MoO3 film, whereas multilayers of MoS2 partially standing up with r…

SulfurizationGeneral Chemical EngineeringC-AFMMoS<sub>2</sub>; sulfurization; XPS; Raman; TEM; C-AFM; photoluminescenceArticleChemistryMoS<sub>2</sub>TEMXPSGeneral Materials ScienceMoS2QD1-999PhotoluminescenceRamanNanomaterials
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Oxidation State and Local Structure of Chromium Ions in LaOCl

2021

This research is funded by the Latvian Council of Science, project “Novel transparent nanocomposite oxyfluoride materials for optical applications”, project No. LZP-2018/1-0335. Institute of Solid State Physics, University of Latvia as the Center of Excellence has received funding from the European Union’s Horizon 2020 Framework Programme H2020-WIDESPREAD-01-2016-2017- TeamingPhase2 under grant agreement No. 739508, project CAMART2.

Technologyelectron-nuclear double resonance (ENDOR)Materials sciencechemistry.chemical_element02 engineering and technology010402 general chemistry01 natural sciencesArticlelaw.inventionChromiumLattice constantX-ray photoelectron spectroscopyLaOCl; chromium; X-ray photoelectron spectroscopy (XPS); X-ray absorption spectroscopy; electron paramagnetic resonance (EPR); electron-nuclear double resonance (ENDOR)lawOxidation state:NATURAL SCIENCES:Physics [Research Subject Categories]General Materials ScienceElectron paramagnetic resonanceMicroscopyQC120-168.85X-ray absorption spectroscopyTReducing atmosphereQH201-278.5X-ray absorption spectroscopy600X-ray photoelectron spectroscopy (XPS)Engineering (General). Civil engineering (General)021001 nanoscience & nanotechnologyXANESTK1-99710104 chemical sciences3. Good healthLaOClelectron paramagnetic resonance (EPR)Descriptive and experimental mechanicschemistry13. Climate actionPhysical chemistryElectrical engineering. Electronics. Nuclear engineeringchromiumTA1-20400210 nano-technologyddc:600Materials
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Rapid and eco-friendly synthesis of graphene oxide-silica nanohybrids

2014

The increasing interest in Graphene oxide (GO) is due to many issues: the presence of both sp2-conjugated atoms and oxygen-containing functional groups provides a strong hydrophilicity and the possibility to further functionalize it with other molecules (i.e. π-π interactions covalent attachment etc.) [1]. Furthermore since the GO is biocompatible and noncytotoxic many studies have been recently focused on the development of GO-based nanodevices for bioimaging DNA detection drug delivery. Due to their low cytotoxicity and large internal surface area silica nanoparticles have been taken into account as promising material for biolabeling and drug loading/delivery. Particular consideration has recently been demonstrated for GO-silica composites because of the potentialities for electrical applications their chemical inertia and stability toward ions exposure. The possibility to combine the extraordinary properties of GO and silica offers several advantages for the realization of nanoprobes for biological applications and of biosensor [12]. The strategy for the fabrication of GO-nanosilica nanohybrids can be schematized as follows: (i) synthesis of GO by oxidizing graphite powder with the method described by Marcano et al. [3] (ii) Preparation of oxygen-loaded silica nanoparticles by thermal treatments in controlled atmosphere in order to induce high NIR emission at 1272 nm from high purity silica nanoparticles. (iii) preparation of GrO-silica nanohybrid films via rapid solvent casting in water. The nanohybrids were tested by XPS FTIR Raman analysis UV photoluminescence analysis TGA Zeta potential measurements electrical tests AFM and SEM. Several nanohybrids were prepared by combining two different typologies of GO and two different samples of silica.
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Study of the oxidation mechanisms of Plutonium

2022

Oxidation is a key point when applied to a material such as plutonium. It is essential to understand the oxidation mechanisms in order to predict and prevent catastrophic oxidation, thus managing the reprocessing cost.The originality of this work lies in the coupling of different experimental techniques : in-situ X-ray diffraction, Photo-electron spectroscopy (XPS), FIB-SEM, Raman spectrometry and X-ray absorption (EXAFS) with numerical techniques : CALPHAD and Reverse Monte Carlo, in order to determine the oxidation mechanisms of the studied alloy : -phase stabilised PuGa 1 at%.Study of oxidation of this alloy at different temperatures and oxygen partial pressures showed the oxidation kin…

[CHIM.MATE] Chemical Sciences/Material chemistryIn-Situ XRDOxidationXpsOxydationPlutonium alloyDRX in-SituAlliage de Plutonium
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Initial stages of metal oxides thin films growth by MOCVD: physicochemical characterisation of the film/substrate interface

2006

The initial stages of Metalorganic Chemical Vapour Deposition (MOCVD) of TiO2 thin films on Si(100) were studied in situ by surface analyses (XPS, ARXPS, AES). An original experimental set-up was built for this purpose and developed. Information obtained from these in situ experiments was completed by ex situ characterisations (HRTEM, SIMS, GIXRD...).The formation of an interfacial SiOy<2 layer resulting of the interaction of the precursor Ti(OCH(CH3)2)4 with the substrate takes place before the formation of stoichiometric TiO2 and leads to the presence of carbon at the interface. At the deposition temperature, 675 °C, silicon diffusion within the TiO2 external layer was also revealed. Conc…

[CHIM.MATE] Chemical Sciences/Material chemistryinterfacial reactivityin situ surface analysisARXPScrystalline structure[ CHIM.MATE ] Chemical Sciences/Material chemistryMOCVDTEMXPSstructure cristallineMETréactivité interfacialeanalyse de surfaces in situTiO2/Si
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