Enthalpy of sublimation

In thermodynamics, the enthalpy of sublimation, or heat of sublimation, is the heat required to sublimate (change from solid to gas) one mole of a substance at a given combination of temperature and pressure, usually standard temperature and pressure (STP).It is equal to the cohesive energy of the solid.For elemental metals, it is also equal to the standard enthalpy of formation of the gaseous metal atoms.[1] The heat of sublimation is usually expressed in kJ/mol, although the less customary kJ/kg is also encountered.

thermodynamicssublimatetemperaturepressurestandard temperature and pressurestandard enthalpy of formationlithiumsodiumpotassiumrubidiumcaesiummagnesiumcalciumstrontiumbariumnickelcoppersilvertungstengraphitediamondsiliconfermiumiodinenaphthalenecarbon dioxideSublimation (chemistry)Phase transitionClausius-Clapeyron equationStates of matterLiquidSupercritical fluidPlasmaBose–Einstein condensateFermionic condensateDegenerate matterQuantum HallRydberg matterStrange matterSuperfluidSupersolidPhotonic moleculeQCD matterQuark–gluon plasmaColor-glass condensateColloidCrystalLiquid crystalTime crystalQuantum spin liquidExotic matterProgrammable matterDark matterAntimatterAntiferromagnetFerrimagnetFerromagnetString-net liquidSuperglassPhase transitionsBoilingBoiling pointCondensationCritical lineCritical pointCrystallizationDepositionEvaporationFlash evaporationFreezingChemical ionizationIonizationLambda pointMeltingMelting pointRecombinationRegelationSaturated fluidSublimationSupercoolingTriple pointVaporizationVitrificationEnthalpy of fusionEnthalpy of vaporizationLatent heatLatent internal energyTrouton's ruleVolatilityBaryonic matterBinodalCompressed fluidCooling curveEquation of stateLeidenfrost effectMacroscopic quantum phenomenaMpemba effectOrder and disorder (physics)SpinodalSuperconductivitySuperheated vaporSuperheatingThermo-dielectric effect