Object[Analysis, CriticalMicelleConcentration]
Analysis of the data from a surface tension measurement conducted on surfactant samples at varying concentrations.
Organizational Information
Name
Name of this Object.
Format: Single
Class: String
Programmatic Pattern: _String
Pattern Description: A string.
ID
ID of this Object.
Format: Single
Class: String
Programmatic Pattern: _String
Pattern Description: The ID of this object.
Object
Object of this Object.
Format: Single
Class: Expression
Programmatic Pattern: Object[Analysis, CriticalMicelleConcentration, _String]
Pattern Description: The object reference of this object.
Type
Type of this Object.
Format: Single
Class: Expression
Programmatic Pattern: Object[Analysis, CriticalMicelleConcentration]
Pattern Description: Object[Analysis, CriticalMicelleConcentration]
Notebook
Notebook this object belongs to.
Format: Single
Class: Link
Programmatic Pattern: _Link
Pattern Description: An object of that matches ObjectP[Object[LaboratoryNotebook]].
Relation: Object[LaboratoryNotebook][Objects]
Author
The person who ran the analysis.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[User]
General
UnresolvedOptions
The initial options entered into the analysis function that generated this object, along with the default values for any unspecified options.
Format: Single
Class: Compressed
Programmatic Pattern: {_Rule...}
ResolvedOptions
The final options used by the analysis function, after automatic options have been determined from the input and unresolved options.
Format: Single
Class: Compressed
Programmatic Pattern: {_Rule...}
Reference
The objects containing the source data used in this analysis.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Qualification, PipettingLinearity][FittingAnalysis] | Object[Data, AbsorbanceSpectroscopy][AbsorbanceSpectrumPeaksSource] | Object[Data, AbsorbanceSpectroscopy][QuantificationAnalyses] | Object[Data, AbsorbanceSpectroscopy][SmoothingAnalyses] | Object[Data, AbsorbanceIntensity][QuantificationAnalyses] | Object[Data, AgaroseGelElectrophoresis][SampleElectropherogramPeaksAnalyses] | Object[Data, AgaroseGelElectrophoresis][MarkerElectropherogramPeaksAnalyses] | Object[Data, AgaroseGelElectrophoresis][PostSelectionPeaksAnalyses] | Object[Data, AgaroseGelElectrophoresis][SmoothingAnalyses] | Object[Data, Appearance, Colonies][ColonyAnalysis] | Object[Data, MeltingCurve][MeltingAnalyses] | Object[Data, MeltingCurve][FluorescenceSpectraAnalyses] | Object[Data, MeltingCurve][AggregationAnalyses] | Object[Data, MeltingCurve][ThermalShiftAnalyses] | Object[Data, BioLayerInterferometry][QuantitationAnalysis] | Object[Data, BioLayerInterferometry][KineticsAnalysis] | Object[Data, BioLayerInterferometry][BinningAnalysis] | Object[Data, BioLayerInterferometry][DetectionLimitAnalysis] | Object[Data, CapillaryGelElectrophoresisSDS][LadderAnalyses] | Object[Data, CapillaryGelElectrophoresisSDS][SmoothingAnalyses] | Object[Data, CapillaryGelElectrophoresisSDS][PeaksAnalyses] | Object[Data, CapillaryGelElectrophoresisSDS][RelativeMigrationPeaksAnalyses] | Object[Data, CapillaryGelElectrophoresisSDS][FitAnalyses] | Object[Data, CapillaryIsoelectricFocusing][SmoothingAnalyses] | Object[Data, CapillaryIsoelectricFocusing][PeaksAnalyses] | Object[Data, CapillaryIsoelectricFocusing][FitAnalyses] | Object[Data, Chromatography][StandardAnalyses] | Object[Data, Chromatography][FractionPickingAnalysis] | Object[Data, Chromatography][ConductancePeaksAnalyses] | Object[Data, Chromatography][AbsorbancePeaksAnalyses] | Object[Data, Chromatography][SecondaryAbsorbancePeaksAnalyses] | Object[Data, Chromatography][Absorbance3DPeaksAnalyses] | Object[Data, Chromatography][FluorescencePeaksAnalyses] | Object[Data, Chromatography][SecondaryFluorescencePeaksAnalyses] | Object[Data, Chromatography][TertiaryFluorescencePeaksAnalyses] | Object[Data, Chromatography][QuaternaryFluorescencePeaksAnalyses] | Object[Data, Chromatography][ScatteringPeaksAnalyses] | Object[Data, Chromatography][FIDResponsePeaksAnalyses] | Object[Data, Chromatography][ChargePeaksAnalyses] | Object[Data, Chromatography][SmoothingAnalyses] | Object[Data, Chromatography][pHPeaksAnalyses] | Object[Data, Chromatography][RefractiveIndexPeaksAnalysis] | Object[Data, Chromatography][CircularDichroismPeaksAnalysis] | Object[Data, Chromatography][MultiAngleLightScatteringAnalyses] | Object[Data, Chromatography][DynamicLightScatteringAnalyses] | Object[Data, ChromatographyMassSpectra][IonAbundance3DPeaksAnalyses] | Object[Data, ChromatographyMassSpectra][IonAbundancePeaksAnalyses] | Object[Data, ChromatographyMassSpectra][MassSpectrumPeaksAnalyses] | Object[Data, ChromatographyMassSpectra][AbsorbancePeaksAnalyses] | Object[Data, ChromatographyMassSpectra][Absorbance3DPeaksAnalyses] | Object[Data, ChromatographyMassSpectra][DownsamplingAnalyses] | Object[Data, ChromatographyMassSpectra][SmoothingAnalyses] | Object[Data, CircularDichroism][SmoothingAnalyses] | Object[Data, CircularDichroism][StructureQuantificationAnalyses] | Object[Data, DifferentialScanningCalorimetry][HeatingCurvePeaksAnalyses] | Object[Data, DifferentialScanningCalorimetry][SmoothingAnalyses] | Object[Data, DNASequencing][SequenceAnalyses] | Object[Data, DynamicFoamAnalysis][BubbleRadiusAnalyses] | Object[Data, FlowCytometry][FlowCytometryAnalyses] | Object[Data, FluorescenceKinetics][RateFittingAnalyses] | Object[Data, FluorescencePolarizationKinetics][RateFittingAnalyses] | Object[Data, LuminescenceKinetics][RateFittingAnalyses] | Object[Data, FluorescenceSpectroscopy][EmissionSpectrumPeaksAnalyses] | Object[Data, FluorescenceSpectroscopy][ExcitationSpectrumPeaksAnalyses] | Object[Data, FluorescenceSpectroscopy][SmoothingAnalyses] | Object[Data, LuminescenceSpectroscopy][PeaksAnalyses] | Object[Data, LuminescenceSpectroscopy][SmoothingAnalyses] | Object[Data, MeltingCurve][InitialIntensityPeaksAnalyses] | Object[Data, MeltingCurve][FinalIntensityPeaksAnalyses] | Object[Data, MeltingCurve][InitialMassPeaksAnalyses] | Object[Data, MeltingCurve][FinalMassPeaksAnalyses] | Object[Data, MeltingCurve][DynamicLightScatteringAnalyses] | Object[Data, FluorescenceThermodynamics][MeltingAnalyses] | Object[Data, MassSpectrometry][MassSpectrumPeaksAnalyses] | Object[Data, MassSpectrometry][SmoothingAnalyses] | Object[Data, Microscope][AdjustmentAnalyses] | Object[Data, Microscope][CellCountAnalyses] | Object[Data, Microscope][MicroscopeOverlay] | Object[Data, ImageCells][CellCountAnalyses] | Object[Data, ImageCells][MicroscopeOverlay] | Object[Data, Nephelometry][QuantificationAnalyses] | Object[Data, NephelometryKinetics][GrowthCurveAnalyses] | Object[Data, NephelometryKinetics][SolubilityAnalyses] | Object[Data, NMR][NMRSpectrumPeaksAnalyses] | Object[Data, NMR][SmoothingAnalyses] | Object[Data, NMR2D][NMRSpectrumPeaksAnalyses] | Object[Data, PAGE][LanePeaksAnalyses] | Object[Data, PAGE][LadderAnalyses] | Object[Data, PAGE][SmoothingAnalyses] | Object[Data, qPCR][QuantificationCycleAnalyses] | Object[Data, TotalProteinDetection][FitSourceSpectra] | Object[Data, TotalProteinDetection][MassSpectrumPeaksAnalyses] | Object[Data, TotalProteinDetection][LadderAnalyses] | Object[Data, TLC][LanePeaksAnalyses] | Object[Data, TLC][SmoothingAnalyses] | Object[Data, Volume][QuantificationAnalyses] | Object[Data, Western][FitSourceSpectra] | Object[Data, Western][MassSpectrumPeaksAnalyses] | Object[Data, Western][LadderAnalyses] | Object[Data, Western][SmoothingAnalyses] | Object[Analysis, MeltingPoint][TopBaseline] | Object[Analysis, MeltingPoint][BottomBaseline] | Object[Analysis, MeltingPoint][Thermodynamics] | Object[Analysis, QuantificationCycle][CopyNumberAnalyses] | Object[Analysis, QuantificationCycle][StandardCurveAnalyses] | Object[Analysis, Composition][StandardCurveFitAnalyses] | Object[Analysis, Ladder][StandardFit] | Object[Analysis, Thermodynamics][Fit] | Object[Analysis, Fit][ParallelLineAnalyses] | Object[Data, XRayDiffraction][StructureAnalyses] | Object[Data, XRayDiffraction][DiffractionPeaksAnalyses] | Object[Data, XRayDiffraction][SmoothingAnalyses] | Object[Data, IRSpectroscopy][AbsorbanceSpectrumPeaksSource] | Object[Data, IRSpectroscopy][SmoothingAnalyses] | Object[Protocol, FlowCytometry][CompensationMatrixAnalyses] | Object[Protocol, TotalProteinQuantification][QuantificationAnalyses] | Object[Data, CircularDichroism][CircularDichroismPeaksAnalysis] | Object[Data, DynamicLightScattering][MassDistributionAnalyses] | Object[Data, DynamicLightScattering][IntensityDistributionAnalyses] | Object[Data, DynamicLightScattering][DynamicLightScatteringAnalyses] | Object[DesignOfExperiment][DesignOfExperimentAnalyses] | Object[Protocol, ThermalShift][DynamicLightScatteringLoadingAnalyses] | Object[Protocol, DynamicLightScattering][DynamicLightScatteringLoadingAnalyses] | Object[Data, DifferentialScanningCalorimetry][Analyses]
ReferenceField
The field in the Reference object containing the source data.
Format: Single
Class: Expression
Programmatic Pattern: FieldP[Output -> Short]
SamplesIn
The samples for which the critical micelle concentration is being quantified.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Sample]
AliquotSamples
For each member of SamplesIn, the samples (SamplesIn or diluted samples) which had their surface tensions measured.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Sample]
DilutionFactors
For each member of AliquotSamples, a measure of the portion of the AssaySample that is comprised of the SampleIn. For example, an DilutionFactor of 0.02 indicates that the SampleIn was diluted 50-fold to create the AliquotSample.
Format: Multiple
Class: Real
Programmatic Pattern: RangeP[0, 1]
TargetMolecules
The target molecule for which the AliquotSamples concentration was calculated.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Model[Molecule] | Model[Molecule, cDNA] | Model[Molecule, Oligomer] | Model[Molecule, Transcript] | Model[Molecule, Protein] | Model[Molecule, Protein, Antibody] | Model[Molecule, Carbohydrate] | Model[Molecule, Polymer] | Model[Resin] | Model[Resin, SolidPhaseSupport] | Model[Lysate] | Model[ProprietaryFormulation] | Model[Virus] | Model[Cell] | Model[Cell, Mammalian] | Model[Cell, Bacteria] | Model[Cell, Yeast] | Model[Tissue] | Model[Material] | Model[Species]
Concentrations
For each member of the dilution curve, the concentrations of the sample that were measured.
Format: Multiple
Class: VariableUnit
Programmatic Pattern: Gram
Hold[GreaterEqualP[0 Molar] | GreaterEqualP[0 -----] | GreaterEqualP[0 MassPercent] | GreaterEqualP[0 Percent]]
Liter
Experimental Results
AssayData
Any primary data generated by the input data or protocol.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Alternatives[Object[Data, SurfaceTension][CriticalMicelleConcentrationAnalyses]]
SurfaceTensions
For each member of AliquotSamples, the surface tension values measured by ExperimentMeasureSurfaceTension.
Format: Multiple
Class: Real
Unit: 1 millinewton per meter
Programmatic Pattern: Newton
Hold[GreaterEqualP[0 Milli ------]]
Meter
Temperatures
For each member of AliquotSamples, the temperatures (as measured inside the instrument) at which the measurements were acquired.
Format: Multiple
Class: Real
Unit: 1 degree Celsius
Programmatic Pattern: GreaterP[0 Kelvin]
Analysis & Reports
SurfacePressures
For each member of AliquotSamples, the decrease in surface pressures measured.
Format: Multiple
Class: Real
Unit: 1 millinewton per meter
Programmatic Pattern: Newton
Hold[GreaterEqualP[-100 Milli ------]]
Meter
PreMicellarFit
Function used to fit surface tension data points at concentrations below the critical micelle concentration.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Analysis, Fit][PredictedValues]
PostMicellarFit
Function used to fit surface tension data points at concentrations above the critical micelle concentration.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Analysis, Fit][PredictedValues]
CriticalMicelleConcentration
The concentration of surfactants above which micelles form and all additional surfactants added to the system go to micelles. This is the concentration where increasing the concentration of the sample stops decreasing the surface tension.
Format: Single
Class: VariableUnit
Programmatic Pattern: Gram
Hold[GreaterP[0 Molar] | GreaterP[0 -----] | RangeP[0 Percent, 100 Percent]]
Liter
ApparentPartitioning Coefficient
An apparent partitioning coefficient used to quantify partitioning the air-water interface. This is the inverse of the concentration where increasing the concentration of the sample starts decreasing the surface tension.
Format: Single
Class: VariableUnit
Programmatic Pattern: 0 Liter 0
Hold[GreaterP[-----] | GreaterP[0 -----] | GreaterP[-------]]
Molar Gram Percent
SurfaceExcessConcentration
The amount of surfactant adsorbed at the air water interface per surface area. This is calculated by taking the negative of the slope of the concentration dependent region of a surface tension vs. log of concentration graph divided by the temperature the measurement was taken at and the ideal gas constant.
Format: Single
Class: Real
Unit: 1 mole per meter squared
Programmatic Pattern: Mole
Hold[GreaterP[0 ------]]
2
Meter
CrossSectionalArea
The area of the surfactant molecule at the surface. This is calculated by taking the inverse of the SurfaceExcessConcentration and the Avogadro constant.
Format: Single
Class: Real
Unit: 1 meter squared
Programmatic Pattern: 2
Hold[GreaterP[0 Meter ]]
MaxSurfacePressure
The largest surface pressure of the dilutions. This is also the difference between the surface tension of the diluent and the surface tension of the most concentrated dilution.
Format: Single
Class: Real
Unit: 1 millinewton per meter
Programmatic Pattern: Newton
Hold[GreaterEqualP[-100 Milli ------]]
Meter
Last modified on Mon 26 Sep 2022 15:43:43