Search results for "termodynamiikka"

showing 10 items of 21 documents

Thermodynamics of hydronium and hydroxide surface solvation.

2014

[Introduction] The concentration of hydronium and hydroxide at the water-air interface has been under debate for a long time. Recent evidence from a range of experiments and theoretical calculations strongly suggests the water surface is somewhat acidic. Using novel polarizable models we have performed potential of mean force calculations of a hydronium ion, a hydroxide ion and a water molecule in a water droplet and a water slab and we were able to rationalize that hydronium, but not hydroxide, is slightly enriched at the surface for two reasons. First, because the hydrogen-bond acceptance capacity of hydronium is weaker than water it is more favorable to have the hydronium oxygen on the s…

HydroniumhydroxidekemiaInorganic chemistryThermodynamics010402 general chemistry01 natural sciencesIonSurface tensionchemistry.chemical_compound0103 physical scienceshydroksoniumPotential of mean forcePhysics::Chemical Physicsta116thermodynamiikka010304 chemical physicsHydrogen bondSolvationGeneral Chemistryhydronium0104 chemical scienceschemistry13. Climate actiontermodynamiikkaddc:540hydroksidiHydroxideSelf-ionization of water
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Thermodynamics of a Phase-Driven Proximity Josephson Junction

2019

We study the thermodynamic properties of a superconductor/normal metal/superconductor Josephson junction {in the short limit}. Owing to the proximity effect, such a junction constitutes a thermodynamic system where {phase difference}, supercurrent, temperature and entropy are thermodynamical variables connected by equations of state. These allow conceiving quasi-static processes that we characterize in terms of heat and work exchanged. Finally, we combine such processes to construct a Josephson-based Otto and Stirling cycles. We study the related performance in both engine and refrigerator operating mode.

Josephson effectsns junctionStirling enginesuprajohtavuusGeneral Physics and Astronomy02 engineering and technology01 natural sciences7. Clean energysuprajohteetlaw.inventionlawJosephson junctionMaxwell relationCondensed Matter::Superconductivityquasi-particles entropykvanttifysiikkalcsh:Scienceproximity effect; superconductivity; Josephson junction; SNS junction; Josephson thermodynamics; Maxwell relation; quasi-particles entropy; quantum thermodynamics; quantum machines; quantum coolersPhysicsSuperconductivityQuantum PhysicsCondensed matter physicssuperconductivitySupercurrent021001 nanoscience & nanotechnologyThermodynamic systemlcsh:QC1-999termodynamiikkaproximity effectjosephson thermodynamics0210 nano-technologyRefrigerator carFOS: Physical sciencesJosephson thermodynamicslcsh:AstrophysicsArticleSuperconductivity (cond-mat.supr-con)Entropy (classical thermodynamics)quantum coolers0103 physical sciencesMesoscale and Nanoscale Physics (cond-mat.mes-hall)lcsh:QB460-466010306 general physicsquantum machinesPhase differenceCondensed Matter - Mesoscale and Nanoscale PhysicsCondensed Matter - SuperconductivitySNS junctionjosephson junctionmaxwell relationquantum thermodynamicslcsh:QQuantum Physics (quant-ph)lcsh:PhysicsEntropy
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Helicates with Ether-Substituted Catechol Esters as Ligands

2020

European journal of organic chemistry 2020(32), 5161-5172 (2020). doi:10.1002/ejoc.202000843

Molecular switchCatecholesteritOrganic ChemistryEtherkompleksiyhdisteet540Combinatorial chemistrymolecular switchhelicatethermodynamicschemistry.chemical_compoundlitiumchemistrytermodynamiikkatemplatingddc:540supramolekulaarinen kemiacatecholatePhysical and Theoretical Chemistry
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Shedding Light on the Interactions of Hydrocarbon Ester Substituents upon Formation of Dimeric Titanium(IV) Triscatecholates in DMSO Solution

2020

Abstract The dissociation of hierarchically formed dimeric triple lithium bridged triscatecholate titanium(IV) helicates with hydrocarbyl esters as side groups is systematically investigated in DMSO. Primary alkyl, alkenyl, alkynyl as well as benzyl esters are studied in order to minimize steric effects close to the helicate core. The 1H NMR dimerization constants for the monomer–dimer equilibrium show some solvent dependent influence of the side chains on the dimer stability. In the dimer, the ability of the hydrocarbyl ester groups to aggregate minimizes their contacts with the solvent molecules. Due to this, most solvophobic alkyl groups show the highest dimerization tendency followed by…

Steric effectscoordination compoundsesteritDimersolvent effects010402 general chemistry01 natural sciencesMedicinal chemistryCatalysishelicatechemistry.chemical_compoundthermodynamicshelicate thermodynamicsSide chainMoleculeAlkylchemistry.chemical_classificationCoordination Chemistry | Hot PaperFull Paper010405 organic chemistryOrganic ChemistrykompleksiyhdisteetGeneral ChemistryFull PapersTriple bond0104 chemical sciences3. Good healthchemistrytermodynamiikkaweak interactionsSolvent effectsSolvophobicChemistry (Weinheim an Der Bergstrasse, Germany)
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Grand-canonical approach to density functional theory of electrocatalytic systems: Thermodynamics of solid-liquid interfaces at constant ion and elec…

2018

Properties of solid-liquid interfaces are of immense importance for electrocatalytic and electrochemical systems, but modeling such interfaces at the atomic level presents a serious challenge and approaches beyond standard methodologies are needed. An atomistic computational scheme needs to treat at least part of the system quantum mechanically to describe adsorption and reactions, while the entire system is in thermal equilibrium. The experimentally relevant macroscopic control variables are temperature, electrode potential, and the choice of the solvent and ions, and these need to be explicitly included in the computational model as well; this calls for a thermodynamic ensemble with fixed…

Work (thermodynamics)Materials scienceImplicit solvationGeneral Physics and AstronomyElectronDielectric010402 general chemistry01 natural sciencesELECTROCHEMISTRYthermodynamicsCHEMISTRY0103 physical sciencesWATERsolid-liquid interfacesStatistical physicsPhysical and Theoretical Chemistryrajapintailmiötta116QuantumAB-INITIOThermal equilibriumSELF-CONSISTENTta114010304 chemical physicstiheysfunktionaaliteoriaSIMULATIONS0104 chemical sciencesGrand canonical ensembleREDUCTIONCONTINUUMSOLVATIONSolvent modelsStandard electrode potentialtermodynamiikkakatalyysiDensity functional theoryElectronic densityAPPROXIMATIONElectrode potential
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Molecular properties affecting the hydration of acid-base clusters

2021

In the atmosphere, water in all phases is ubiquitous and plays important roles in catalyzing atmospheric chemical reactions, participating in cluster formation and affecting the composition of aerosol particles. Direct measurements of water-containing clusters are limited because water is likely to evaporate before detection, and therefore, theoretical tools are needed to study hydration in the atmosphere. We have studied thermodynamics and population dynamics of the hydration of different atmospherically relevant base monomers as well as sulfuric acid–base pairs. The hydration ability of a base seems to follow in the order of gas-phase base strength whereas hydration ability of acid–base p…

aerosolitmolekyylifysiikkarikkihappotermodynamiikkavesipienhiukkaset
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Saturation vapor pressure characterization of selected low-volatility organic compounds using a residence time chamber

2023

Saturation vapor pressure (psat) is an important thermodynamic property regulating the gas-to-particle partitioning of organic compounds in the atmosphere. Low-volatility organic compounds (LVOCs), with sufficiently low psat values, primarily stay in the particle phase and contribute to aerosol formation. Obtaining accurate information on the psat of LVOCs requires volatility measurements performed at temperatures relevant to atmospheric aerosol formation. Here, we present an isothermal evaporation method using a residence time chamber to measure psat for dry single-compound nanoparticles at 295 K. Our method is able to characterize organic compounds with psat spanning from 10−8 to 10−4 Pa …

aerosolittermodynamiikkakvanttikemiailmakehätieteetorgaaniset yhdisteet
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Tiheä kvarkkiaine ja Nambu-Jona-Lasinio-malli

2007

aineen olomuodotsuprajohtavuustermodynamiikkakvarkithiukkasfysiikkafaasitplasma
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Electrocatalytic rate constants from DFT simulations and theoretical models: Learning from each other

2022

Electrochemical interfaces present an extraordinarily complex reaction environment and several, often counter-acting, interactions contribute to rate constants of electrocatalytic reactions. We compile a short review on how electrode potential, solvent, electrolyte, and pH effects on electrocatalytic rates can be understood and modelled using computational and theoretical methods. We address the connections between computational models based on DFT and (semi)analytical model Hamiltonians to extract physical or chemical insights, identify some omissions in present DFT simulation approaches and analytic models, and discuss what and how simulations and models could learn from each other. peerR…

elektrokatalyysielectrode potentialpHtermodynamiikkaelektroditElectrochemistryelectrolyterate constantlaskennallinen kemiasolventsähkökemialiuottimetAnalytical ChemistryCurrent Opinion in Electrochemistry
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Triggering a transient organo-gelation system in a chemically active solvent

2021

A transient organo-gelation system with spatiotemporal dynamic properties is described. Here, the solvent actively controls a complex set of equilibria that underpin the dynamic assembly event. The observed metastability is due to the in situ formation of a secondary solvent, acting as an antagonist against the primary solvent of the organogel. peerReviewed

geelitPhysics::Biological PhysicsQuantitative Biology::BiomoleculesChemistryEvent (relativity)Metals and AlloysGeneral ChemistryCatalysisSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsSolventliukeneminenCondensed Matter::Soft Condensed MatterChemical physicstermodynamiikkaMetastabilityMaterials ChemistryCeramics and CompositesTransient (oscillation)Physics::Chemical Physicsorgaaniset yhdisteet
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