Search results for "Interactions"

showing 10 items of 1963 documents

Endocytotic uptake of HPMA-based polymers by different cancer cells: impact of extracellular acidosis and hypoxia.

2017

Daniel Gündel,1 Mareli Allmeroth,2 Sarah Reime,1 Rudolf Zentel,2 Oliver Thews1 1Institute of Physiology, Martin Luther University Halle-Wittenberg, Halle (Saale), 2Institute of Organic Chemistry, Johannes Gutenberg-University, Mainz, Germany Background: Polymeric nanoparticles allow to selectively transport chemotherapeutic drugs to the tumor tissue. These nanocarriers have to be taken up into the cells to release the drug. In addition, tumors often show pathological metabolic characteristics (hypoxia and acidosis) which might affect the polymer endocytosis.Materials and methods: Six different N-(2-hydroxypropyl)methacrylamide (HPMA)-based polymer structures (homopolymer as well as…

Materials sciencePolymersBiophysicsHPMA–LMA copolymersPharmaceutical ScienceBioengineering02 engineering and technologyEndocytosisMethacrylatestructure–property relationshipBiomaterials03 medical and health scienceschemistry.chemical_compound0302 clinical medicineDrug Delivery SystemsInternational Journal of NanomedicineCell Line TumorDrug Discoverytumor linesMethacrylamideAnimalstumor microenvironmentOriginal ResearchAcrylamidesTumor hypoxiaPinocytosisOrganic ChemistryGeneral MedicineHydrogen-Ion Concentration021001 nanoscience & nanotechnologyEndocytosisRatsMolecular WeightBiochemistrychemistry030220 oncology & carcinogenesisDrug deliveryCancer cellMethacrylatesNanoparticlesTumor HypoxiaNanocarriers0210 nano-technologyAcidosisHydrophobic and Hydrophilic InteractionsInternational journal of nanomedicine
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HPMA-based block copolymers promote differential drug delivery kinetics for hydrophobic and amphiphilic molecules.

2015

Abstract We describe a method how polymeric nanoparticles stabilized with (2-hydroxypropyl)methacrylamide (HPMA)-based block copolymers are used as drug delivery systems for a fast release of hydrophobic and a controlled release of an amphiphilic molecule. The versatile method of the miniemulsion solvent-evaporation technique was used to prepare polystyrene (PS) as well as poly-d/l-lactide (PDLLA) nanoparticles. Covalently bound or physically adsorbed fluorescent dyes labeled the particles’ core and their block copolymer corona. Confocal laser scanning microscopy (CLSM) in combination with flow cytometry measurements were applied to demonstrate the burst release of a fluorescent hydrophobic…

Materials sciencePolymersPolyestersBiomedical EngineeringNanoparticleFluorescent Antibody TechniqueNanotechnology02 engineering and technology010402 general chemistry01 natural sciencesBiochemistryBiomaterialschemistry.chemical_compoundSurface-Active AgentsDrug Delivery SystemsAmphiphileCopolymerMethacrylamideHumansMolecular BiologyDrug CarriersGeneral MedicineLipid Droplets021001 nanoscience & nanotechnologyControlled release0104 chemical sciencesMiniemulsionDrug LiberationKineticschemistryDrug deliveryBiophysicsMethacrylatesNanoparticlesPolystyrenesNanocarriers0210 nano-technologyHydrophobic and Hydrophilic InteractionsBiotechnologyHeLa CellsActa biomaterialia
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Organic Polyradicals as Redox Mediators: Effect of Intramolecular Radical Interactions on Their Efficiency

2020

The spin–spin interactions between unpaired electrons in organic (poly)radicals, especially nitroxides, are largely investigated and are of crucial importance for their applications in areas such as organic magnetism, molecular charge transfer, or multiple spin labeling in structural biology. Recently, 2,2,6,6-tetramethylpiperidinyloxyl and polymers functionalized with nitroxides have been described as successful redox mediators in several electrochemical applications; however, the study of spin–spin interaction effect in such an area is absent. This communication reports the preparation of a novel family of discrete polynitroxide molecules, with the same number of radical units but differe…

Materials scienceRedox mediatorsRadical02 engineering and technology010402 general chemistryPhotochemistryElectrochemistry01 natural sciencesRedoxlaw.inventiontitanatraneslawTitanatranesnitroxidesspin−spin interactionsMoleculeSettore CHIM/01 - Chimica AnaliticaGeneral Materials SciencepolymeeritElectron paramagnetic resonanceElectrochemical potentialSpin−spin interactionsNitroxides; Redox mediators; Spin−spin interactions; TEMPO; Titanatranes; μ-oxo complexesNitroxidesSettore CHIM/06 - Chimica Organicapolymeerikemia021001 nanoscience & nanotechnologysähkökemia0104 chemical sciencesredox mediatorsμ-oxo complexesUnpaired electronIntramolecular forceorgaaninen kemiaspin-spin interactionsCondensed Matter::Strongly Correlated Electrons0210 nano-technologyTEMPOResearch ArticleACS Applied Materials & Interfaces
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Influence of Substrate Hydrophilicity on Structural Properties of Supported Lipid Systems on Graphene, Graphene Oxides, and Silica

2021

Pristine graphene, a range of graphene oxides, and silica substrates were used to investigate the effect of surface hydrophilicity on supported lipid bilayers by means of all-atom molecular dynamics simulations. Supported 1,2-dioleoyl-sn-glycero-3-phosphocholine lipid bilayers were found in close-contact conformations with hydrophilic substrates with as low as 5% oxidation level, while self-assembled monolayers occur on pure hydrophobic graphene only. Lipids and water at the surface undergo large redistribution to maintain the stability of the supported bilayers. Deposition of bicelles on increasingly hydrophilic substrates shows the continuous process of reshaping of the supported system a…

Materials scienceSilicon dioxideLipid BilayersMolecular Conformation02 engineering and technologyModel lipid bilayer010402 general chemistry01 natural scienceslaw.inventionchemistry.chemical_compoundlawMonolayerMaterials ChemistryPhysical and Theoretical ChemistryLipid bilayerGrapheneBilayerSubstrate (chemistry)Silicon Dioxide021001 nanoscience & nanotechnology0104 chemical sciencesSurfaces Coatings and FilmschemistryChemical engineeringPhosphatidylcholinesGraphitelipids (amino acids peptides and proteins)0210 nano-technologyHydrophobic and Hydrophilic InteractionsLayer (electronics)The Journal of Physical Chemistry B
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Electron-phonon heat transport and electronic thermal conductivity in heavily doped silicon-on-insulator film

2003

Electron–phonon interaction and electronic thermal conductivity have been investigated in heavily doped silicon at subKelvin temperatures. The heat flow between electron and phonon systems is found to be proportional to T6. Utilization of a superconductor–semiconductor–superconductor thermometer enables a precise measurement of electron and substrate temperatures. The electronic thermal conductivity is consistent with the Wiedemann–Franz law. Peer reviewed

Materials scienceSiliconPhononphononsGeneral Physics and AstronomySilicon on insulatorchemistry.chemical_elementSubstrate (electronics)dopingsuperconductorsCondensed Matter::Materials ScienceThermal conductivityCondensed Matter::Superconductivitythermal conductivitySOICondensed matter physicsPhysicsDopingelectronsThermal conductionCondensed Matter::Mesoscopic Systems and Quantum Hall EffectWiedemann-Franz lawsilicon-on-insulatorchemistryelectron-phonon interactionssilicon dopingelemental semiconductorsWiedemann–Franz lawheat transportheavily doped semiconductors
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High-resolution investigation of nanoparticle interaction with a model pulmonary surfactant monolayer.

2012

The pulmonary surfactant film spanning the inner alveolar surface prevents alveolar collapse during the end-exhalation and reduces the work of breathing. Nanoparticles (NPs) present in the atmosphere or nanocarriers targeted through the pulmonary route for medical purposes challenge this biological barrier. During interaction with or passage of NPs through the alveolar surfactant, the biophysical functioning of the film may be altered. However, experimental evidence showing detailed biophysical interaction of NPs with the pulmonary surfactant film are scant. In this study, we have investigated the impact of a hydrophobic polyorganosiloxane (AmOrSil20) NPs on the integrity as well as on the …

Materials scienceSiloxanesPolymersSurface PropertiesGeneral Physics and AstronomyHigh resolutionNanoparticleNanotechnologyMicroscopy Atomic Forcelaw.inventionPulmonary surfactantlawMonolayerGeneral Materials ScienceStructural organizationtechnology industry and agricultureGeneral EngineeringPulmonary Surfactantsrespiratory systemKineticsPhase imagingBiophysicsNanoparticlesElectron microscopeNanocarriersHydrophobic and Hydrophilic InteractionsACS nano
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Stacking as a key property for creating nanoparticles with tunable shape: The case of squalenoyl-doxorubicin

2019

The development of elongated nanoparticles for drug delivery is of growing interest in recent years, due to longer blood circulation and improved efficacy compared to spherical counterparts. Squalenoyl-doxorubicin (SQ-Dox) conjugate was previously shown to form elongated nanoparticles with improved therapeutic efficacy and decreased toxicity compared to free doxorubicin. By using experimental and computational techniques, we demonstrate here that the specific physical properties of SQ-Dox, which include stacking and electrostatic interactions of doxorubicin as well as hydrophobic interactions of squalene, are involved in the formation of nanoassemblies with diverse elongated structures. We …

Materials scienceStackingGeneral Physics and AstronomyNanoparticleAntineoplastic AgentsNanotechnology02 engineering and technologysqualene010402 general chemistry01 natural sciencesbioconjugate; cylindrical nanoparticles; doxorubicin; elongated nanoparticles; nanomedicine; squalene; stackingdoxorubicinHydrophobic effectDrug Delivery Systemselongated nanoparticlespolycyclic compoundsGeneral Materials Sciencebioconjugatecylindrical nanoparticlesBioconjugationGeneral Engineering021001 nanoscience & nanotechnologynanomedicine3. Good health0104 chemical sciencesIonic strengthstackingDrug deliveryNanoparticlesNanomedicine0210 nano-technologyHydrophobic and Hydrophilic InteractionsConjugateACS Nano
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Self-Assembly of Amphiphilic Nanocrystals

2009

Amphiphilic hybrid materials are formed from polymer-coated semiconductor nanoparticles that simulate a surfactant-like response (see picture). The strength and density of the surface coating are the key assembling forces driving a transition from single particles to cylindrical or vesicular superstructures.

Materials scienceSurface PropertiesNanoparticleNanotechnologyGeneral ChemistryCatalysisSurface-Active AgentsSurface coatingNanocrystalQuantum DotsAmphiphileNanoparticlesSelf-assemblyHybrid materialHydrophobic and Hydrophilic InteractionsSemiconductor NanoparticlesAngewandte Chemie International Edition
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Biomaterial Surface Hydrophobicity-Mediated Serum Protein Adsorption and Immune Responses.

2019

The nature of the protein corona forming on biomaterial surfaces can affect the performance of implanted devices. This study investigated the role of surface chemistry and wettability on human serum-derived protein corona formation on biomaterial surfaces and the subsequent effects on the cellular innate immune response. Plasma polymerization, a substrate-independent technique, was employed to create nanothin coatings with four specific chemical functionalities and a spectrum of surface charges and wettability. The amount and type of protein adsorbed was strongly influenced by surface chemistry and wettability but did not show any dependence on surface charge. An enhanced adsorption of the …

Materials scienceTHP-1 Cellsplasma polymerizationwettabilityBiomaterial Surface ModificationsProtein CoronaBiocompatible Materials02 engineering and technology010402 general chemistry01 natural sciencesAdsorptionHumansGeneral Materials ScienceSurface chargeOpsoninInnate immune systemMacrophagesbiomaterialBiomaterialBlood Proteins021001 nanoscience & nanotechnologyhuman serumprotein adsorptionimmune responsesImmunity Innate0104 chemical sciencesBiophysicsProtein CoronaAdsorption0210 nano-technologyHydrophobic and Hydrophilic InteractionsProtein adsorptionACS applied materialsinterfaces
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Influence of the Ce: YAG amount on structure and optical properties of Ce:YAG-PMMA composites for white LED

2016

Ce:YAG-poly(methyl methacrylate) (PMMA) composites were prepared by using a melt compounding method, adding several amounts of Ce:YAG in the range 0.1–5wt.%. The optical properties of the obtained composites and of the composites combined with a blue LED were measured to investigate the effect of the amount of Ce:YAG on the resulting emitted light in view of possible application in white LED manufacture. An increase in Ce:YAG amount caused an increase in the emission and a shift of 15 nm, influencing the white LED performance. The structure and morphology of the composites were studied. The results show that the interaction between the two components, observed by using solid state NMR exper…

Materials sciencegenetic structuresbusiness.industryWhite LEDPolymeric Composites02 engineering and technology010402 general chemistry021001 nanoscience & nanotechnologyPMMA01 natural sciencesInterface InteractionsYAG [Ce]eye diseases0104 chemical sciencesOptoelectronicsComposite materialPhysical and Theoretical Chemistry0210 nano-technologybusiness
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