Object[Data, Chromatography]
Analytical data captured during a chromatographic separation technique.
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[Data, Chromatography, _String]
Pattern Description: The object reference of this object.
Type
Type of this Object.
Format: Single
Class: Expression
Programmatic Pattern: Object[Data, Chromatography]
Pattern Description: Object[Data, Chromatography]
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]
Replicates
Data acquired under replicated experimental conditions to this data.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Data][Replicates]
General
Protocol
The protocol that generated this data.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Protocol][Data] | Object[Protocol][EnvironmentalData] | Object[Protocol, AbsorbanceQuantification][VolumeData] | Object[Protocol, AbsorbanceQuantification][EmptyPlateAbsorbance] | Object[Protocol, AbsorbanceQuantification][BufferAbsorbance] | Object[Protocol, AbsorbanceSpectroscopy][BlankAbsorbance] | Object[Protocol, AbsorbanceSpectroscopy][InitialPurgePressure] | Object[Protocol, AbsorbanceSpectroscopy][PurgePressureLog] | Object[Protocol, AbsorbanceIntensity][BlankAbsorbance] | Object[Protocol, AbsorbanceIntensity][InitialPurgePressure] | Object[Protocol, AbsorbanceIntensity][PurgePressureLog] | Object[Protocol, AbsorbanceKinetics][BlankAbsorbance] | Object[Protocol, AcousticLiquidHandling][Data] | Object[Protocol, AlphaScreen][GainOptimizationData] | Object[Protocol, AlphaScreen][FocalHeightOptimizationData] | Object[Protocol, BioLayerInterferometry][Data] | Object[Protocol, CyclicVoltammetry][ElectrodePretreatmentData] | Object[Protocol, CyclicVoltammetry][CyclicVoltammetryData] | Object[Protocol, CyclicVoltammetry][PostMeasurementStandardAdditionData] | Object[Protocol, CyclicVoltammetry][PretreatmentSpargingPressureLogs] | Object[Protocol, CyclicVoltammetry][SpargingPressureLogs] | Object[Protocol, CyclicVoltammetry][PostMeasurementStandardAdditionSpargingPressureLogs] | Object[Protocol, CircularDichroism][BlankData] | Object[Protocol, CircularDichroism][EmptyData] | Object[Protocol, DNASynthesis][DeblockSolutionWeightData] | Object[Protocol, DNASynthesis][WashSolutionWeightData] | Object[Protocol, DNASynthesis][InitialPurgePressure] | Object[Protocol, DynamicFoamAnalysis][Data] | Object[Protocol, Evaporate][CurrentWasteWeightData] | Object[Protocol, Evaporate][WasteWeightData] | Object[Protocol, Evaporate][BathActualTemperature] | Object[Protocol, Evaporate][BucketWeights] | Object[Protocol, PAGE][LadderData] | Object[Protocol, AgaroseGelElectrophoresis][LadderData] | Object[Protocol, MassSpectrometry][MatrixData] | Object[Protocol, MassSpectrometry][CalibrantData] | Object[Protocol, MassSpectrometry][SystemPrimeData] | Object[Protocol, MassSpectrometry][SystemFlushData] | Object[Protocol, HPLC][StandardData] | Object[Protocol, HPLC][BlankData] | Object[Protocol, HPLC][FlushData] | Object[Protocol, HPLC][PrimeData] | Object[Protocol, HPLC][SystemFlushData] | Object[Protocol, HPLC][SystemPrimeData] | Object[Protocol, HPLC][WasteWeightData] | Object[Protocol, FPLC][StandardData] | Object[Protocol, FPLC][BlankData] | Object[Protocol, FPLC][WasteWeightData] | Object[Protocol, FPLC][PrimeData] | Object[Protocol, FPLC][FlushData] | Object[Protocol, FPLC][SystemPrimeData] | Object[Protocol, FPLC][SystemFlushData] | Object[Protocol, GasChromatography][StandardData] | Object[Protocol, GasChromatography][BlankData] | Object[Protocol, GasChromatography][InitialHeliumPressure] | Object[Protocol, GasChromatography][InitialMethanePressure] | Object[Protocol, GasChromatography][FinalHeliumPressure] | Object[Protocol, GasChromatography][FinalMethanePressure] | Object[Protocol, GasChromatography][InitialHydrogenGeneratorWaterWeight] | Object[Protocol, GasChromatography][FinalHydrogenGeneratorWaterWeight] | Object[Protocol, IonChromatography][StandardData] | Object[Protocol, IonChromatography][AnionStandardData] | Object[Protocol, IonChromatography][CationStandardData] | Object[Protocol, IonChromatography][BlankData] | Object[Protocol, IonChromatography][AnionBlankData] | Object[Protocol, IonChromatography][CationBlankData] | Object[Protocol, IonChromatography][FlushData] | Object[Protocol, IonChromatography][AnionFlushData] | Object[Protocol, IonChromatography][CationFlushData] | Object[Protocol, IonChromatography][PrimeData] | Object[Protocol, IonChromatography][AnionPrimeData] | Object[Protocol, IonChromatography][CationPrimeData] | Object[Protocol, IonChromatography][SystemFlushData] | Object[Protocol, IonChromatography][AnionSystemFlushData] | Object[Protocol, IonChromatography][CationSystemFlushData] | Object[Protocol, IonChromatography][SystemPrimeData] | Object[Protocol, IonChromatography][AnionSystemPrimeData] | Object[Protocol, IonChromatography][CationSystemPrimeData] | Object[Protocol, IonChromatography][WasteWeightData] | Object[Protocol, ImageSample][RulerImageData] | Object[Protocol, MeasureViscosity][WasteWeightData] | Object[Protocol, PNASynthesis][WashSolutionWeightData] | Object[Protocol, PNASynthesis][PrimaryWasteWeightData] | Object[Protocol, PNASynthesis][SecondaryWasteWeightData] | Object[Protocol, PNASynthesis][PurgePressureData] | Object[Protocol, PNASynthesis][PurgePressureLog] | Object[Protocol, PNASynthesis][InitialPurgePressure] | Object[Protocol, PeptideSynthesis][WashSolutionWeightData] | Object[Protocol, PeptideSynthesis][PrimaryWasteWeightData] | Object[Protocol, PeptideSynthesis][SecondaryWasteWeightData] | Object[Protocol, PeptideSynthesis][PurgePressureData] | Object[Protocol, PeptideSynthesis][PurgePressureLog] | Object[Protocol, PeptideSynthesis][InitialPurgePressure] | Object[Protocol, Centrifuge][ContainerWeights] | Object[Protocol, Centrifuge][TareWeight] | Object[Protocol, Centrifuge][CollectionContainerWeights] | Object[Protocol, Centrifuge][CounterbalanceContainerTareWeights] | Object[Protocol, Centrifuge][CounterbalanceContainerWeights] | Object[Protocol, IncubateOld][CurrentTemperature] | Object[Protocol, Incubate][ThawActualTemperature] | Object[Protocol, Incubate][SonicationTemperatureData] | Object[Protocol, IRSpectroscopy][BlankData] | Object[Protocol, LCMS][StandardData] | Object[Protocol, LCMS][BlankData] | Object[Protocol, LCMS][PrimeData] | Object[Protocol, LCMS][FlushData] | Object[Protocol, LCMS][SystemPrimeData] | Object[Protocol, LCMS][SystemFlushData] | Object[Protocol, LCMS][CalibrationData] | Object[Protocol, MicrowaveDigestion][ReactionTemperature] | Object[Protocol, MicrowaveDigestion][ReactionPressure] | Object[Protocol, VacuumEvaporation][BucketWeights] | Object[Protocol, VacuumEvaporation][WasteWeightData] | Object[Protocol, SolidPhaseExtraction][PurgePressureLog] | Object[Protocol, SolidPhaseExtraction][InitialPurgePressure] | Object[Protocol, SolidPhaseExtraction][WasteWeightData] | Object[Protocol, SupercriticalFluidChromatography][StandardData] | Object[Protocol, SupercriticalFluidChromatography][BlankData] | Object[Protocol, SupercriticalFluidChromatography][PrimeData] | Object[Protocol, SupercriticalFluidChromatography][FlushData] | Object[Protocol, SupercriticalFluidChromatography][SystemPrimeData] | Object[Protocol, SupercriticalFluidChromatography][SystemFlushData] | Object[Protocol, SupercriticalFluidChromatography][WasteWeightData] | Object[Protocol, Transfer][TareWeights] | Object[Protocol][NitrogenPressureLog] | Object[Protocol][InitialNitrogenPressure] | Object[Protocol][CO2PressureLog] | Object[Protocol][InitialCO2Pressure] | Object[Protocol][ArgonPressureLog] | Object[Protocol][InitialArgonPressure] | Object[Protocol][WasteWeightTare] | Object[Protocol][SecondaryWasteWeightTare] | Object[Protocol][WasteWeight] | Object[Protocol][SecondaryWasteWeight] | Object[Protocol, UVMelting][InitialPurgePressure] | Object[Protocol, UVMelting][PurgePressureLog] | Object[Protocol, UVMelting][AbsorbanceData] | Object[Protocol, Filter][WasteWeightData] | Object[Protocol, MeasureDensity][TareWeights] | Object[Protocol, MeasureDensity][SampleWeights] | Object[Protocol, MeasureViscosity][WasteWeightData] | Object[Protocol, MeasureWeight][ScoutData] | Object[Protocol, MeasureWeight][TareData] | Object[Protocol, MeasureWeight][ResidueWeightData] | Object[Protocol, MeasureWeight][TareWeights] | Object[Protocol, qPCR][StandardData] | Object[Protocol, qPCR][BlankData] | Object[Protocol, CapillaryELISA][StandardData] | Object[Protocol, ELISA][StandardData] | Object[Protocol, ELISA][BlankData] | Object[Protocol, ELISA][PrereadData] | Object[Protocol, RNASynthesis][DeblockSolutionWeightData] | Object[Protocol, RNASynthesis][WashSolutionWeightData] | Object[Protocol, RNASynthesis][InitialPurgePressure] | Object[Protocol, MeasureOsmolality][ControlData] | Object[Protocol, MeasureOsmolality][VoidControlData] | Object[Protocol, MeasureOsmolality][PostRunInstrumentContaminationData] | Object[Protocol, Degas][HeliumPressureLog] | Object[Protocol, Degas][ChannelAGasPressure] | Object[Protocol, Degas][ChannelBGasPressure] | Object[Protocol, Degas][ChannelCGasPressure] | Object[Protocol, Degas][ChannelDGasPressure] | Object[Protocol, Degas][VacuumSensorPressure] | Object[Protocol, CapillaryGelElectrophoresisSDS][InjectionTable, Data] | Object[Protocol, CapillaryIsoelectricFocusing][InjectionTable, Data] | Object[Protocol, Nephelometry][BlankMeasurement] | Object[Protocol, NephelometryKinetics][BlankMeasurement] | Object[Protocol, MeasureDensity][AirCheckData] | Object[Protocol, MeasureDensity][WaterCheckData] | Object[Protocol, MeasureRefractiveIndex][Data]
Qualifications
The Qualifications that generated this data.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Qualification][Data] | Object[Qualification][WasteWeightTare] | Object[Qualification][SecondaryWasteWeightTare] | Object[Qualification][WasteWeight] | Object[Qualification][SecondaryWasteWeight] | Object[Qualification][EnvironmentalData] | Object[Qualification, CalibrateDNASynthesizer][InitialPurgePressure] | Object[Qualification, CalibrateDNASynthesizer][CalibrationWeightData] | Object[Qualification, EngineBenchmark][SelectedSensorData] | Object[Qualification, EngineBenchmark][RecordedSensorData] | Object[Qualification, ELISA][AbsorbanceQualificationData]
Maintenance
The maintenance that generated this data.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Maintenance][Data] | Object[Maintenance, CalibrateVolume][EmptyDistances] | Object[Maintenance, CalibrateVolume][TareDistance] | Object[Maintenance, CalibratePathLength][EmptyDistances] | Object[Maintenance, CalibratePathLength][StandardDistances] | Object[Maintenance, CalibratePathLength][EmptyAbsorbance] | Object[Maintenance][InitialNitrogenPressure] | Object[Maintenance][NitrogenPressureLog] | Object[Maintenance][InitialCO2Pressure] | Object[Maintenance][CO2PressureLog] | Object[Maintenance][InitialArgonPressure] | Object[Maintenance][ArgonPressureLog] | Object[Maintenance][EnvironmentalData] | Object[Maintenance][WasteWeightTare] | Object[Maintenance][SecondaryWasteWeightTare] | Object[Maintenance][WasteWeight] | Object[Maintenance][SecondaryWasteWeight] | Object[Maintenance, Flush][SystemFlushData]
Instrument
Instrument this data was obtained using.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Instrument]
Sensor
Sensor this data was obtained using.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Sensor][Data]
DataFile
The file containing the raw unprocessed data generated by the instrument.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[EmeraldCloudFile]
AliquotSamples
Aliquot samples that were directly assayed to generate this data.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Sample][Data]
SamplesIn
Samples that were assayed to generate this data. Please note that if the samples were aliquoted, this field will contain the input samples.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
SamplesOut
Samples produced in the course of generating this data.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Sample][Data]
DateInjected
Date and time the input sample was injected into the Instrument and measured.
Format: Single
Class: Date
Programmatic Pattern: _?DateObjectQ
DataType
Indicates if this data represents a blank, standard, sample, column flush, or column prime measurement.
Format: Single
Class: Expression
Programmatic Pattern: ChromatographyDataTypeP
InjectionIndex
The numeric position indicating when this data was measured for the experiment with respect to the other column primes, sample injections, standard injections, blank injections, and column flushes (e.g. 1 is the first measurement run).
Format: Single
Class: Integer
Programmatic Pattern: GreaterP[0, 1]
SamplingMethod
The method used to inject the sample in a gas chromatography experiment.
Format: Single
Class: Expression
Programmatic Pattern: GCSamplingMethodP
InjectionType
Whether the system introduces sample in to the flow path via the automated injection module (Autosampler), directly from an inlet line submerged into the samples (FlowInjection), or with a large, volume-controlled sample loop (Superloop).
Format: Single
Class: Expression
Programmatic Pattern: FPLCInjectionTypeP
SampleVolume
The volume taken from the SamplesIn and injected into the Instrument.
Format: Single
Class: Real
Unit: 1 microliter
Programmatic Pattern: GreaterEqualP[0 Micro Liter]
SPMESampleAdsorptionTime
The amount of time that a SPME fiber was allowed to adsorb analytes during the injection of this sample.
Format: Single
Class: Real
Unit: 1 minute
Programmatic Pattern: GreaterEqualP[0 Second]
SPMESampleDesorptionTime
The amount of time that a SPME fiber was allowed to desorb its adsorbents during the injection of this sample.
Format: Single
Class: Real
Unit: 1 minute
Programmatic Pattern: GreaterEqualP[0 Second]
SampleFlowRate
The total rate of sample pumped onto the Column when InjectionType is FlowInjection or Superloop.
Format: Single
Class: Real
Unit: 1 milliliter per minute
Programmatic Pattern: 0 Milli Liter
Hold[GreaterEqualP[-------------]]
Minute
SampleTemperature
The specified temperature of autosampler chamber where samples are housed before and after injection.
Format: Single
Class: Real
Unit: 1 degree Celsius
Programmatic Pattern: GreaterP[0 Celsius]
Detectors
The types of measurements performed for the experiment and available on the Instrument.
Format: Multiple
Class: Expression
Programmatic Pattern: ChromatographyDetectorTypeP | FlameIonizationDetector | ElectrochemicalDetector
SeparationMode
The type of chromatographic separation that categorizes the mobile (e.g. BufferA) and stationary phase used (e.g. Columns), ideally for optimal sample separation and resolution.
Format: Single
Class: Expression
Programmatic Pattern: SeparationModeP | GasChromatography
IonChromatographyAnalysis Channels
The channel into which each sample is injected. Cation channel is used to resolve positively charged species whereas anion channel is used to resolve negatively charged species.
Format: Single
Class: Expression
Programmatic Pattern: AnalysisChannelP
Columns
The stationary phase device(s) through which the Buffers and input samples flow. It adsorbs and separates the molecules within the sample based on the properties of the Buffers, samples, column material, and ColumnTemperature. For each item in Columns, consecutive objects are connected by the corresponding object in ColumnJoins. For example, the first and second object in Columns is connected by the first object in ColumnJoins.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
ColumnTemperature
The specified temperature of the Columns during the measurement.
Format: Single
Class: Real
Unit: 1 degree Celsius
Programmatic Pattern: GreaterP[0 Celsius]
ColumnTemperatureProfile
The specified temperature profile of the column(s) during the measurement.
Format: Multiple
[[1]] Time
Header: Time
Class: Real
Unit: 1 minute
Programmatic Pattern: GreaterEqualP[0 Minute]
[[2]] Temperature
Header: Temperature
Class: Real
Unit: 1 degree Celsius
Programmatic Pattern: GreaterP[0 Celsius]
ColumnOrientation
The direction of the Column with respect to the flow.
Format: Single
Class: Expression
Programmatic Pattern: ColumnOrientationP
GuardColumn
The protective stationary phase device often used to adsorb and sequester fouling contaminants from the Columns.
Format: Single
Class: Link
Programmatic Pattern: _Link
GuardCartridge
The module that holds the adsorbent within the GuardColumn.
Format: Single
Class: Link
Programmatic Pattern: _Link
GuardColumnOrientation
The direction of the GuardColumn for the protocol. If a Column is used and GuardColumnOrientation is ReverseColumn, then the GuardColumn is placed after the column relative to the direction of the flow path.
Format: Single
Class: Expression
Programmatic Pattern: ColumnOrientationP
FlowRates
The bulk speed of the mobile phase at each time point where the slope changed.
Format: Multiple
[[1]] Time
Header: Time
Class: Real
Unit: 1 minute
[[2]] Flow Rate
Header: Flow Rate
Class: Real
Unit: 1 milliliter per minute
ColumnPressures
The profile of the head pressure in the column over the course of the separation.
Format: Multiple
[[1]] Time
Header: Time
Class: Real
Unit: 1 minute
Programmatic Pattern: GreaterEqualP[0 Minute]
[[2]] Pressure
Header: Pressure
Class: Real
Unit: 1 pound‐force per inch squared
Programmatic Pattern: GreaterEqualP[0 PSI]
SeparationMethod
A collection of inlet, column, and oven parameters that will be used to perform the chromatographic separation after the sample has been injected.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Method]
GradientMethod
The instructions for the mixing and distribution of the Buffer solutions within the mobile phase over time.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Method]
BufferA
The solvent pumped through channel A of the flow path.
Format: Single
Class: Link
Programmatic Pattern: _Link
BufferB
The solvent pumped through channel B of the flow path.
Format: Single
Class: Link
Programmatic Pattern: _Link
BufferC
The solvent pumped through channel C of the flow path.
Format: Single
Class: Link
Programmatic Pattern: _Link
BufferD
The solvent pumped through channel D of the flow path.
Format: Single
Class: Link
Programmatic Pattern: _Link
BufferE
The solvent pumped through channel E of the flow path.
Format: Single
Class: Link
Programmatic Pattern: _Link
BufferF
The solvent pumped through channel F of the flow path.
Format: Single
Class: Link
Programmatic Pattern: _Link
BufferG
The solvent pumped through channel G of the flow path.
Format: Single
Class: Link
Programmatic Pattern: _Link
BufferH
The solvent pumped through channel H of the flow path.
Format: Single
Class: Link
Programmatic Pattern: _Link
GradientA
The percentage of BufferA in the composition over time, in the form: {Time, % Buffer A} or a single % Buffer A for the entire run.
Format: Multiple
[[1]] Time
Header: Time
Class: Real
Unit: 1 minute
Programmatic Pattern: GreaterEqualP[0 Minute]
[[2]] Buffer Composition
Header: Buffer Composition
Class: Real
Unit: 1 percent
Programmatic Pattern: RangeP[0 Percent, 100 Percent]
GradientB
The percentage of BufferB in the composition over time, in the form: {Time, % Buffer B} or a single % Buffer B for the entire run.
Format: Multiple
[[1]] Time
Header: Time
Class: Real
Unit: 1 minute
Programmatic Pattern: GreaterEqualP[0 Minute]
[[2]] Buffer Composition
Header: Buffer Composition
Class: Real
Unit: 1 percent
Programmatic Pattern: RangeP[0 Percent, 100 Percent]
GradientC
The percentage of BufferC in the composition over time, in the form: {Time, % Buffer C} or a single % Buffer C for the entire run.
Format: Multiple
[[1]] Time
Header: Time
Class: Real
Unit: 1 minute
Programmatic Pattern: GreaterEqualP[0 Minute]
[[2]] Buffer Composition
Header: Buffer Composition
Class: Real
Unit: 1 percent
Programmatic Pattern: RangeP[0 Percent, 100 Percent]
GradientD
The percentage of BufferD in the composition over time, in the form: {Time, % Buffer D} or a single % Buffer D for the entire run.
Format: Multiple
[[1]] Time
Header: Time
Class: Real
Unit: 1 minute
Programmatic Pattern: GreaterEqualP[0 Minute]
[[2]] Buffer Composition
Header: Buffer Composition
Class: Real
Unit: 1 percent
Programmatic Pattern: RangeP[0 Percent, 100 Percent]
GradientE
The percentage of BufferE in the composition over time, in the form: {Time, % Buffer E} or a single % Buffer E for the entire run.
Format: Multiple
[[1]] Time
Header: Time
Class: Real
Unit: 1 minute
Programmatic Pattern: GreaterEqualP[0 Minute]
[[2]] Buffer Composition
Header: Buffer Composition
Class: Real
Unit: 1 percent
Programmatic Pattern: RangeP[0 Percent, 100 Percent]
GradientF
The percentage of BufferF in the composition over time, in the form: {Time, % Buffer F} or a single % Buffer F for the entire run.
Format: Multiple
[[1]] Time
Header: Time
Class: Real
Unit: 1 minute
Programmatic Pattern: GreaterEqualP[0 Minute]
[[2]] Buffer Composition
Header: Buffer Composition
Class: Real
Unit: 1 percent
Programmatic Pattern: RangeP[0 Percent, 100 Percent]
GradientG
The percentage of BufferG in the composition over time, in the form: {Time, % Buffer G} or a single % Buffer G for the entire run.
Format: Multiple
[[1]] Time
Header: Time
Class: Real
Unit: 1 minute
Programmatic Pattern: GreaterEqualP[0 Minute]
[[2]] Buffer Composition
Header: Buffer Composition
Class: Real
Unit: 1 percent
Programmatic Pattern: RangeP[0 Percent, 100 Percent]
GradientH
The percentage of BufferH in the composition over time, in the form: {Time, % Buffer H} or a single % Buffer H for the entire run.
Format: Multiple
[[1]] Time
Header: Time
Class: Real
Unit: 1 minute
Programmatic Pattern: GreaterEqualP[0 Minute]
[[2]] Buffer Composition
Header: Buffer Composition
Class: Real
Unit: 1 percent
Programmatic Pattern: RangeP[0 Percent, 100 Percent]
EluentGeneratorInletSolution
The solvent pumped through to the eluent generator in the anion channel of the IonChromatography instrument.
Format: Single
Class: Link
Programmatic Pattern: _Link
Eluent
The eluent automatically generated via eluent generator in the flow path of anion channel of the IonChromatography instrument.
Format: Single
Class: Link
Programmatic Pattern: _Link
EluentGradient
The concentration of eluent over time, in the form: {Time, eluent concentration (mM)} or a single eluent concentration for the entire run.
Format: Multiple
[[1]] Time
Header: Time
Class: Real
Unit: 1 minute
Programmatic Pattern: GreaterEqualP[0 Minute]
[[2]] Eluent Concentration
Header: Eluent Concentration
Class: Real
Unit: 1 millimolar
Programmatic Pattern: RangeP[0 Millimolar, 100 Millimolar]
EquilibrationTime
The time at which the binary gradient starts.
Format: Single
Class: Real
Unit: 1 minute
Programmatic Pattern: GreaterEqualP[0 Second]
GradientStartTime
The time at which the gradient starts.
Format: Single
Class: Real
Unit: 1 minute
Programmatic Pattern: GreaterEqualP[0 Second]
GradientTimeEnd
The time at which the binary gradient ends.
Format: Single
Class: Real
Unit: 1 minute
Programmatic Pattern: GreaterEqualP[0 Second]
FractionCollectionMethod
The instructions used to collect column effluent based on absorbance measurement.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Method]
AbsoluteThreshold
The absorbance, fluorescence, or circular dichroism signal value above which fractions are collected.
Format: Single
Class: VariableUnit
Programmatic Pattern: GreaterEqualP[0 AbsorbanceUnit Milli] | GreaterEqualP[0 RFU Milli]
PeakEndThreshold
The absorbance, fluorescence or circular dichroism signal value below which the end of a peak is marked and fraction collection stops.
Format: Single
Class: VariableUnit
Programmatic Pattern: GreaterEqualP[0 AbsorbanceUnit Milli] | GreaterEqualP[0 RFU Milli]
PeakSlope
The minimum slope rate (per second) that must be met before a peak is detected and fraction collection begins. A new peak (and new fraction) can be registered once the slope drops below this again, and collection ends when the PeakEndThreshold value is reached.
Format: Single
Class: VariableUnit
Programmatic Pattern: 0 (AbsorbanceUnit Milli) 0 (RFU Milli)
Hold[GreaterEqualP[------------------------] | GreaterEqualP[-------------]]
Second Second
PeakSlopeDuration
The minimum duration that changes in slopes must be maintained before they are registered.
Format: Single
Class: Real
Unit: 1 second
Programmatic Pattern: GreaterEqualP[0 Second]
FIDParameters
The FID detector parameters during sample analysis.
Format: Multiple
[FIDTemperature]
Header: FIDTemperature
Class: Real
Unit: 1 degree Celsius
[FIDAirFlowRate]
Header: FIDAirFlowRate
Class: Real
Unit: 1 milliliter per minute
[FIDDihydrogenFlowRate]
Header: FIDDihydrogenFlowRate
Class: Real
Unit: 1 milliliter per minute
[FIDMakeupGasFlowRate]
Header: FIDMakeupGasFlowRate
Class: Real
Unit: 1 milliliter per minute
[CarrierGasFlowCorrection]
Header: CarrierGasFlowCorrection
Class: Expression
[FIDDataCollectionFrequency]
Header: FIDDataCollectionFrequency
Class: Real
Unit: 1 hertz
AbsorbanceWavelength
The primary monochromator or filter wavelength used to filter lamp light before passing through the flow cell.
Format: Single
Class: Real
Unit: 1 nanometer
Programmatic Pattern: GreaterP[0 Meter]
SecondaryAbsorbanceWavelength
The secondary monochromator or filter wavelength used to filter lamp light before passing through the flow cell.
Format: Single
Class: Real
Unit: 1 nanometer
Programmatic Pattern: GreaterP[0 Meter]
TertiaryAbsorbanceWavelength
The tertiary monochromotor or filter wavelength used to filter lamp light before passing through the flow cell.
Format: Single
Class: Real
Unit: 1 nanometer
Programmatic Pattern: GreaterP[0 Meter]
QuaternaryAbsorbance Wavelength
The quaternary monochromotor or filter wavelength used to filter lamp light before passing through the flow cell.
Format: Single
Class: Real
Unit: 1 nanometer
Programmatic Pattern: GreaterP[0 Meter]
MinAbsorbanceWavelength
The minimum wavelength of light detected by the Photo Diode Array (PDA) detector during the experiment.
Format: Single
Class: Real
Unit: 1 nanometer
Programmatic Pattern: GreaterP[0 Meter]
MaxAbsorbanceWavelength
The maximum wavelength of light detected by the Photo Diode Array (PDA) detector during the experiment.
Format: Single
Class: Real
Unit: 1 nanometer
Programmatic Pattern: GreaterP[0 Meter]
AbsorbanceWavelength Resolution
The increment in wavelengths spanning from MinWavelength to MaxWavelength for the Photo Diode Array (PDA) detector measurement.
Format: Single
Class: Real
Unit: 1 nanometer
Programmatic Pattern: GreaterP[0 Meter]
UVFilter
Indicates if UV light (less than 210 nm) was transmitted through the sample for the Photo Diode Array (PDA) detector.
Format: Single
Class: Boolean
Programmatic Pattern: BooleanP
AbsorbanceSamplingRate
The frequency of measurement for a UVVis or Photo Diode Array (PDA) detectors.
Format: Single
Class: Real
Unit: 1 reciprocal second
Programmatic Pattern: 1
Hold[GreaterP[0 ------]]
Second
ExcitationWavelength
The primary monochromator/filter wavelength used to filter the lamp light before it is passed into the fluorescence flow cell to excite the fluorescent compounds in the sample.
Format: Single
Class: Real
Unit: 1 nanometer
Programmatic Pattern: GreaterP[0 Nanometer]
SecondaryExcitationWavelength
The secondary monochromator/filter wavelength used to filter the lamp light before it is passed into the fluorescence flow cell to excite the fluorescent compounds in the sample.
Format: Single
Class: Real
Unit: 1 nanometer
Programmatic Pattern: GreaterP[0 Nanometer]
TertiaryExcitationWavelength
The tertiary monochromator/filter wavelength used to filter the lamp light before it is passed into the fluorescence flow cell to excite the fluorescent compounds in the sample.
Format: Single
Class: Real
Unit: 1 nanometer
Programmatic Pattern: GreaterP[0 Nanometer]
QuaternaryExcitation Wavelength
The quaternary monochromator/filter wavelength used to filter the lamp light before it is passed into the fluorescence flow cell to excite the fluorescent compounds in the sample.
Format: Single
Class: Real
Unit: 1 nanometer
Programmatic Pattern: GreaterP[0 Nanometer]
EmissionWavelength
The primary monochromator/filter wavelength used to filter emitted light from the sample before it is measured in the Fluorescence detector.
Format: Single
Class: Real
Unit: 1 nanometer
Programmatic Pattern: GreaterP[0 Nanometer]
SecondaryEmissionWavelength
The secondary monochromator/filter wavelength used to filter emitted light from the sample before it is measured in the Fluorescence detector.
Format: Single
Class: Real
Unit: 1 nanometer
Programmatic Pattern: GreaterP[0 Nanometer]
TertiaryEmissionWavelength
The tertiary monochromator/filter wavelength used to filter emitted light from the sample before it is measured in the Fluorescence detector.
Format: Single
Class: Real
Unit: 1 nanometer
Programmatic Pattern: GreaterP[0 Nanometer]
QuaternaryEmissionWavelength
The quaternary monochromator/filter wavelength used to filter emitted light from the sample before it is measured in the Fluorescence detector.
Format: Single
Class: Real
Unit: 1 nanometer
Programmatic Pattern: GreaterP[0 Nanometer]
EmissionCutOffFilter
The cut-off wavelength to pre-select the emitted light from the sample and allow only the light with wavelength above the desired value to pass before the light enters emission monochromator for final wavelength selection.
Format: Single
Class: Real
Unit: 1 nanometer
Programmatic Pattern: GreaterP[0 Nanometer]
FluorescenceSamplingRate
The frequency of measurement for a Fluorescence detector.
Format: Single
Class: Real
Unit: 1 reciprocal second
Programmatic Pattern: 1
Hold[GreaterEqualP[0 ------]]
Second
MultiChannelFluorescence SamplingRate
The frequency of measurement for a Fluorescence detector when multiple fluorescence measurement channels are selected.
Format: Single
Class: Expression
Programmatic Pattern: HPLCFluorescenceSamplingRateP
FluorescenceGain
The signal amplification of ExcitationWavelength/EmissionWavelength channel in the Fluorescence measurement.
Format: Single
Class: Real
Programmatic Pattern: GreaterP[0]
SecondaryFluorescenceGain
The signal amplification of SecondaryExcitationWavelength/SecondaryEmissionWavelength channel in the Fluorescence measurement.
Format: Single
Class: Real
Programmatic Pattern: GreaterP[0]
TertiaryFluorescenceGain
The signal amplification of TertiaryExcitationWavelength/TertiaryEmissionWavelength channel in the Fluorescence measurement.
Format: Single
Class: Real
Programmatic Pattern: GreaterP[0]
QuaternaryFluorescenceGain
The signal amplification of QuaternaryExcitationWavelength/QuaternaryEmissionWavelength channel in the Fluorescence measurement.
Format: Single
Class: Real
Programmatic Pattern: GreaterP[0]
FluorescenceFlowCell Temperature
The nominal temperature setting inside the flow cell of the fluorescence detector during the fluorescence measurement of the sample.
Format: Single
Class: Real
Unit: 1 degree Celsius
Programmatic Pattern: GreaterEqualP[0 Kelvin]
LightScatteringLaserPower
The laser power filter used in the Multi-Angle static Light Scattering (MALS) and Dynamic Light Scattering (DLS) detector for the measurement of the sample.
Format: Single
Class: Real
Unit: 1 percent
Programmatic Pattern: RangeP[10 Percent, 100 Percent]
LightScatteringFlowCell Temperature
The nominal temperature setting inside the Multi-Angle static Light Scattering (MALS) and Dynamic Light Scattering (DLS) flow cell of the detector during the MALS and/or DLS measurement of the sample.
Format: Single
Class: Real
Unit: 1 degree Celsius
Programmatic Pattern: GreaterEqualP[0 Kelvin]
MALSDetectorAngles
The angles with regard to the incident light beam at which the MALS detection photodiodes are mounted around the flow cell inside the Multi-Angle static Light Scattering (MALS) detector.
Format: Multiple
Class: Real
Unit: 1 degree
Programmatic Pattern: GreaterEqualP[0 AngularDegree]
RefractiveIndexMethod
The type of refractive index measurement for the refractive index (RI) detector.
Format: Single
Class: Expression
Programmatic Pattern: RefractiveIndex | DifferentialRefractiveIndex
RefractiveIndexFlowCell Temperature
The nominal temperature setting inside the refractive index flow cell of the refractive index (RI) detector during the refractive index measurement of the sample.
Format: Single
Class: Real
Unit: 1 degree Celsius
Programmatic Pattern: GreaterEqualP[0 Kelvin]
DifferentialRefractiveIndex Reference
The chromatography data of the sample which is used as the reference for differential refractive index measurement.
Format: Single
Class: Link
Programmatic Pattern: ObjectP[Object[Data]]
Relation: Object[Data]
DifferentialRefractiveIndex ReferenceComposition
The buffer composition of the reference sample for differential refractive index measurement.
Format: Multiple
[[1]] Buffer Name
Header: Buffer Name
Class: String
Programmatic Pattern: _String
[[2]] Buffer
Header: Buffer
Class: Link
[[3]] Percent
Header: Percent
Class: Real
Unit: 1 percent
Programmatic Pattern: GreaterEqualP[0 Percent]
CircularDichroismWavelength
The filter wavelength used to filter lamp light before passing through the flow cell in the CircularDichroism detector.
Format: Single
Class: Real
Unit: 1 nanometer
Programmatic Pattern: GreaterP[0 Nanometer]
CircularDichroismSamplingRate
The frequency of circular dichroism measurement for the sample.
Format: Single
Class: Real
Unit: 1 reciprocal second
Programmatic Pattern: 1
Hold[GreaterP[0 ------]]
Second
pHCalibration
Indicates if 2-point calibration of the pH probe is performed before the experiment starts.
Format: Single
Class: Boolean
Programmatic Pattern: BooleanP
LowpHCalibrationBuffer
The low pH reference buffer used to calibrate the pH probe in the 2-point calibration.
Format: Single
Class: Link
Programmatic Pattern: ObjectP[Object[Sample]]
Relation: Object[Sample]
HighpHCalibrationBuffer
The high pH reference buffer used to calibrate the pH probe in the 2-point calibration.
Format: Single
Class: Link
Programmatic Pattern: ObjectP[Object[Sample]]
Relation: Object[Sample]
LowpHCalibrationTarget
The nominal pH of the LowpHCalibrationBuffer's model that used to calibrate the pH probe in the 2-point calibration.
Format: Single
Class: Real
Programmatic Pattern: RangeP[0, 14]
HighpHCalibrationTarget
The nominal pH of the HighpHCalibrationBuffer's model that used to calibrate the pH probe in the 2-point calibration.
Format: Single
Class: Real
Programmatic Pattern: RangeP[0, 14]
pHTemperatureCompensation
Indicates if the measured pH value is automatically corrected according to the temperature value inside the pH flow cell.
Format: Single
Class: Boolean
Programmatic Pattern: BooleanP
ConductivityCalibration
Indicates if 1-point calibration of the conductivity probe is performed before the experiment starts.
Format: Single
Class: Boolean
Programmatic Pattern: BooleanP
ConductivityCalibrationBuffer
The buffer that is used to calibrate the conductivity probe in the 1-point calibration.
Format: Single
Class: Link
Programmatic Pattern: ObjectP[Object[Sample]]
Relation: Object[Sample]
ConductivityCalibrationTarget
The nominal conductivity value of the ConductivityCalibrationBuffer's model used to calibrate the conductivity probe in the 1-point calibration.
Format: Single
Class: Real
Unit: 1 microsiemens per centimeter
Programmatic Pattern: Siemens
Hold[GreaterEqualP[0 Micro ----------]]
Centimeter
ConductivityTemperature Compensation
Indicates if the measured conductance value is automatically corrected according to the temperature value inside the conductivity flow cell.
Format: Single
Class: Boolean
Programmatic Pattern: BooleanP
NebulizerGas
Indicates if sheath gas was turned on for the ELSD detector.
Format: Single
Class: Boolean
Programmatic Pattern: BooleanP
NebulizerGasPressure
The applied pressure to the sheath gas.
Format: Single
Class: Real
Unit: 1 pound‐force per inch squared
Programmatic Pattern: GreaterP[0 PSI]
NebulizerGasHeating
Indicates if sheath gas should be heated or not for the ELSD detector.
Format: Single
Class: Boolean
Programmatic Pattern: BooleanP
NebulizerHeatingPower
The relative magnitude of the heating element used to heat the sheath gas.
Format: Single
Class: Real
Programmatic Pattern: RangeP[0 Percent, 100 Percent]
DriftTubeTemperature
The temperature of the chamber through which the sprayed analyte travels.
Format: Single
Class: Real
Unit: 1 degree Celsius
Programmatic Pattern: GreaterP[0 Celsius]
ELSDGain
The signal amplification of ELSD measurement by the Instrument photomultiplier tube.
Format: Single
Class: Real
Programmatic Pattern: GreaterP[0]
ELSDSamplingRate
The frequency of measurement for an ELSD detector.
Format: Single
Class: Real
Unit: 1 reciprocal second
Programmatic Pattern: 1
Hold[GreaterP[0 ------]]
Second
SuppressorMode
The operation method of the cation suppressor. Under DynamidMode, constant voltage is supplied to the suppressor with variable current while under LegacyMode, constant current is supplied.
Format: Single
Class: Expression
Programmatic Pattern: SuppressorModeP
SuppressorVoltage
The electrical potential difference applied to the Cation Suppressor.
Format: Single
Class: Real
Unit: 1 volt
Programmatic Pattern: GreaterEqualP[0 Volt]
SuppressorCurrent
The rate of electric charge flow between the electrodes in the suppresor.
Format: Single
Class: Real
Unit: 1 milliampere
Programmatic Pattern: GreaterEqualP[0 Milli Ampere]
DetectionTemperature
The temperature of the cell where conductivity measurement is collected.
Format: Single
Class: Real
Unit: 1 degree Celsius
Programmatic Pattern: GreaterEqualP[0 Kelvin]
ElectrochemicalDetectionMode
The mode of operation for the electrochemical detector, including DC Amperometric Detection, Pulsed Amperometric Detection, and Integrated Pulsed Amperometric Detection. In DC Amperometric Detection, a constant voltage is applied. In contrast, Pulsed Amperometric Detections first apply a working potential followed by higher or lower potentials that are used for cleaning the electrode. Further, Integrated Amperometric Detection integrates current over a single potential whereas Integrated Pulsed Amperometric Detection integrates current over two or more potentials.
Format: Single
Class: Expression
Programmatic Pattern: ElectrochemicalDetectionModeP
ReferenceElectrode
The electrode used as a reference with constant potential difference throughout the measurement.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Part, ReferenceElectrode]
ReferenceElectrodeMode
A combination pH-Ag/AgCl reference electrode that can be used to either monitor the buffer pH ("pH" reference) or to serve as a cell reference electrode with a constant potential ("AgCl" reference).
Format: Single
Class: Expression
Programmatic Pattern: ReferenceElectrodeModeP
WorkingElectrode
The electrode where the analytes undergo reduction or oxidation recations due to the potential difference applied.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Item, Electrode]
ElectrochemicalVoltageProfile
A voltage setting of the electrochemical detector over the duration of the analysis.
Format: Single
Class: Expression
Programmatic Pattern: VoltageP | {{TimeP, VoltageP}...}
ElectrochemicalWaveform
A series of time-dependent voltage setting (waveform) that will be repeated over the duration of the analysis.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Method, Waveform]
ElectrochemicalWaveform Profile
The programmed waveform being run on the detector over time. The specified waveform will start running at the given time with no interpolation in between time points.
Format: Multiple
[[1]] Time
Header: Time
Class: Real
Programmatic Pattern: GreaterEqualP[0 Minute]
[[2]] Waveform
Header: Waveform
Class: Link
Programmatic Pattern: _Link
Relation: Object[Method, Waveform]
ElectrochemicalSamplingRate
The frequency of measurement for a electrochemical detector.
Format: Single
Class: Real
Unit: 1 reciprocal second
Programmatic Pattern: 1
Hold[GreaterP[0 ------]]
Second
AirDetectedAlarms
The times at which the chromatography instrument raised an air detected alarm, relative to the start of the run.
Format: Multiple
Class: Real
Unit: 1 minute
Programmatic Pattern: GreaterEqualP[0 Minute]
StandardData
The data from the reference sample run before this data was generated.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[Data, Chromatography][Analytes]
Analytes
The list of all samples associated with this standard.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
DetectorDataFile
The file containing the raw unprocessed data generated by the secondary HPLC detector.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[EmeraldCloudFile]
BatchStandard
The data from the standard run at the start of this batch.
Format: Single
Class: Link
Programmatic Pattern: _Link
BatchAnalytes
The data for all analytes run after this batch standard.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Model Information
ChromatographyType
The chromatographic technique that was used to generate this data.
Format: Single
Class: Expression
Programmatic Pattern: ChromatographyTypeP
Fraction Collection
FractionCollectionDetector
The type of measurement that is used as signal to trigger fraction collection.
Format: Single
Class: Expression
Programmatic Pattern: ChromatographyDetectorTypeP
Experimental Results
Fractions
The summary information of effluent collected by the Instrument.
Format: Multiple
[Sample]
Header: Sample
Class: Link
Relation: Object[Sample]
[Container]
Header: Container
Class: Link
Relation: Object[Container]
[Position]
Header: Position
Class: String
[CollectionStartTime]
Header: CollectionStartTime
Class: Real
Unit: 1 minute
[CollectionEndTime]
Header: CollectionEndTime
Class: Real
Unit: 1 minute
[CollectionVolume]
Header: CollectionVolume
Class: Real
Unit: 1 milliliter
InjectionTime
The time at which the sample was introduced to the flow path, relative to the beginning of the run. Chromatograms are transposed to define injection time as 0.
Format: Single
Class: Real
Unit: 1 second
Programmatic Pattern: GreaterEqualP[0 Minute]
Absorbance
The chromatogram of absorbance at AbsorbanceWavelength vs. time during the experiment for the UV visible (UVVis) detector.
Format: Single
Class: BigQuantityArray
Unit: ['1 minute', '1 milli AbsorbanceUnit']
Programmatic Pattern: BigQuantityArrayP[{Minute, Milli AbsorbanceUnit}]
SecondaryAbsorbance
The chromatogram of absorbance at SecondaryAbsorbanceWavelength vs. time during the experiment.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 milli AbsorbanceUnit']
Programmatic Pattern: QuantityMatrixP[{Minute, Milli AbsorbanceUnit}]
TertiaryAbsorbance
The chromatogram of absorbance at TertiaryAbsorbanceWavelength vs. time during the experiment.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 milli AbsorbanceUnit']
Programmatic Pattern: QuantityMatrixP[{Minute, MilliAbsorbanceUnit}]
QuaternaryAbsorbance
The chromatogram of absorbance at QuaternaryAbsorbanceWavelength vs. time during the experiment.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 milli AbsorbanceUnit']
Programmatic Pattern: QuantityMatrixP[{Minute, MilliAbsorbanceUnit}]
Absorbance3D
The chromatogram of Absorbance at each Wavelength for each retention time point during the experiment for the PhotoDiodeArray (PDA) detector.
Format: Single
Class: BigQuantityArray
Unit: ['1 minute', '1 nanometer', '1 milli AbsorbanceUnit']
Programmatic Pattern: BigQuantityArrayP[{Minute, Meter Nano, AbsorbanceUnit Milli}]
Fluorescence
The chromatogram of the measured Fluorescence vs. time using the first excitation/emission wavelength pair during the experiment for the Fluorescence detector.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 Rfus']
Programmatic Pattern: QuantityCoordinatesP[{Minute, RFU}]
SecondaryFluorescence
The chromatogram of the measured Fluorescence vs. time using the second excitation/emission wavelength pair during the experiment for the Fluorescence detector.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 Rfus']
Programmatic Pattern: QuantityCoordinatesP[{Minute, RFU}]
TertiaryFluorescence
The chromatogram of the measured Fluorescence vs. time using the third excitation/emission wavelength pair during the experiment for the Fluorescence detector.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 Rfus']
Programmatic Pattern: QuantityCoordinatesP[{Minute, RFU}]
QuaternaryFluorescence
The chromatogram of the measured Fluorescence vs. time using the fourth excitation/emission wavelength pair during the experiment for the Fluorescence detector.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 Rfus']
Programmatic Pattern: QuantityCoordinatesP[{Minute, RFU}]
Scattering
The chromatogram of light scattering vs. time during the experiment for the EvaporativeLightScattering detector (ELSD) detector.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 Lsus']
Programmatic Pattern: QuantityCoordinatesP[{Minute, LSU}]
MultiAngleLightScattering22 Degree
The chromatogram of multi-angle light scattering vs. time during the experiment for the 1st Multi-Angle static Light Scattering (MALS) detector at 22.5 Degree angle.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 volt']
Programmatic Pattern: QuantityCoordinatesP[{Minute, Volt}]
MultiAngleLightScattering28 Degree
The chromatogram of multi-angle light scattering vs. time during the experiment for the 1st Multi-Angle static Light Scattering (MALS) detector at 28.0 Degree angle.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 volt']
Programmatic Pattern: QuantityCoordinatesP[{Minute, Volt}]
MultiAngleLightScattering32 Degree
The chromatogram of multi-angle light scattering vs. time during the experiment for the 1st Multi-Angle static Light Scattering (MALS) detector at 32.0 Degree angle.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 volt']
Programmatic Pattern: QuantityCoordinatesP[{Minute, Volt}]
MultiAngleLightScattering38 Degree
The chromatogram of multi-angle light scattering vs. time during the experiment for the 1st Multi-Angle static Light Scattering (MALS) detector at 38.0 Degree angle.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 volt']
Programmatic Pattern: QuantityCoordinatesP[{Minute, Volt}]
MultiAngleLightScattering44 Degree
The chromatogram of multi-angle light scattering vs. time during the experiment for the 1st Multi-Angle static Light Scattering (MALS) detector at 44.0 Degree angle.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 volt']
Programmatic Pattern: QuantityCoordinatesP[{Minute, Volt}]
MultiAngleLightScattering50 Degree
The chromatogram of multi-angle light scattering vs. time during the experiment for the 1st Multi-Angle static Light Scattering (MALS) detector at 50.0 Degree angle.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 volt']
Programmatic Pattern: QuantityCoordinatesP[{Minute, Volt}]
MultiAngleLightScattering57 Degree
The chromatogram of multi-angle light scattering vs. time during the experiment for the 1st Multi-Angle static Light Scattering (MALS) detector at 57.0 Degree angle.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 volt']
Programmatic Pattern: QuantityCoordinatesP[{Minute, Volt}]
MultiAngleLightScattering64 Degree
The chromatogram of multi-angle light scattering vs. time during the experiment for the 1st Multi-Angle static Light Scattering (MALS) detector at 64.0 Degree angle.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 volt']
Programmatic Pattern: QuantityCoordinatesP[{Minute, Volt}]
MultiAngleLightScattering72 Degree
The chromatogram of multi-angle light scattering vs. time during the experiment for the 1st Multi-Angle static Light Scattering (MALS) detector at 72.0 Degree angle.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 volt']
Programmatic Pattern: QuantityCoordinatesP[{Minute, Volt}]
MultiAngleLightScattering81 Degree
The chromatogram of multi-angle light scattering vs. time during the experiment for the 1st Multi-Angle static Light Scattering (MALS) detector at 81.0 Degree angle.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 volt']
Programmatic Pattern: QuantityCoordinatesP[{Minute, Volt}]
MultiAngleLightScattering90 Degree
The chromatogram of multi-angle light scattering vs. time during the experiment for the 1st Multi-Angle static Light Scattering (MALS) detector at 90.0 Degree angle.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 volt']
Programmatic Pattern: QuantityCoordinatesP[{Minute, Volt}]
MultiAngleLightScattering99 Degree
The chromatogram of multi-angle light scattering vs. time during the experiment for the 1st Multi-Angle static Light Scattering (MALS) detector at 99.0 Degree angle.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 volt']
Programmatic Pattern: QuantityCoordinatesP[{Minute, Volt}]
MultiAngleLightScattering108 Degree
The chromatogram of multi-angle light scattering vs. time during the experiment for the 1st Multi-Angle static Light Scattering (MALS) detector at 108.0 Degree angle.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 volt']
Programmatic Pattern: QuantityCoordinatesP[{Minute, Volt}]
MultiAngleLightScattering117 Degree
The chromatogram of multi-angle light scattering vs. time during the experiment for the 1st Multi-Angle static Light Scattering (MALS) detector at 117.0 Degree angle.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 volt']
Programmatic Pattern: QuantityCoordinatesP[{Minute, Volt}]
MultiAngleLightScattering126 Degree
The chromatogram of multi-angle light scattering vs. time during the experiment for the 1st Multi-Angle static Light Scattering (MALS) detector at 126.0 Degree angle.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 volt']
Programmatic Pattern: QuantityCoordinatesP[{Minute, Volt}]
MultiAngleLightScattering134 Degree
The chromatogram of multi-angle light scattering vs. time during the experiment for the 1st Multi-Angle static Light Scattering (MALS) detector at 134.0 Degree angle.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 volt']
Programmatic Pattern: QuantityCoordinatesP[{Minute, Volt}]
MultiAngleLightScattering141 Degree
The chromatogram of multi-angle light scattering vs. time during the experiment for the 1st Multi-Angle static Light Scattering (MALS) detector at 141.0 Degree angle.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 volt']
Programmatic Pattern: QuantityCoordinatesP[{Minute, Volt}]
MultiAngleLightScattering147 Degree
The chromatogram of multi-angle light scattering vs. time during the experiment for the 1st Multi-Angle static Light Scattering (MALS) detector at 147.0 Degree angle.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 volt']
Programmatic Pattern: QuantityCoordinatesP[{Minute, Volt}]
DynamicLightScattering
The chromatogram of dynamic light scattering vs. time during the experiment for the Dynamic Light Scattering (DLS) detector.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 volt']
Programmatic Pattern: QuantityCoordinatesP[{Minute, Volt}]
RefractiveIndex
The chromatogram of refractive index vs. time during the experiment for the refractive index (RI) detector. If RefractiveIndexMethod is DifferentialRefractiveIndex, this number indicates the refractive index difference between the sample and the reference.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 RefractiveIndexUnits']
Programmatic Pattern: QuantityCoordinatesP[{Minute, RefractiveIndexUnit}]
CircularDichroism
The chromatogram of circular dichroism absorbance signal difference between Left Circularly Polarized Light (LCP) and Right Circularly Polarized Light (RCP) vs. time during the experiment for the circular dichroism (CD) detector.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 AbsorbanceUnit']
Programmatic Pattern: QuantityCoordinatesP[{Minute, AbsorbanceUnit}]
Pressure
The chromatogram of system pressure vs. time during the experiment.
Format: Single
Class: BigQuantityArray
Unit: ['1 minute', '1 pound‐force per inch squared']
Programmatic Pattern: BigQuantityArrayP[{Minute, PSI}]
SamplePressure
The chromatogram of sample pressure vs. time during the experiment.
Format: Single
Class: BigQuantityArray
Unit: ['1 minute', '1 pound‐force per inch squared']
Programmatic Pattern: BigQuantityArrayP[{Minute, PSI}]
PreColumnPressure
The chromatogram of pressure measured before the column vs. time during the experiment.
Format: Single
Class: BigQuantityArray
Unit: ['1 minute', '1 pound‐force per inch squared']
Programmatic Pattern: BigQuantityArrayP[{Minute, PSI}]
PostColumnPressure
The chromatogram of pressure measured after the column vs. time during the experiment.
Format: Single
Class: BigQuantityArray
Unit: ['1 minute', '1 pound‐force per inch squared']
Programmatic Pattern: BigQuantityArrayP[{Minute, PSI}]
DeltaColumnPressure
The chromatogram of the pressure difference across the column vs. time during the experiment.
Format: Single
Class: BigQuantityArray
Unit: ['1 minute', '1 pound‐force per inch squared']
Programmatic Pattern: BigQuantityArrayP[{Minute, PSI}]
Temperature
The chromatogram of temperature vs. time during the experiment.
Format: Single
Class: BigQuantityArray
Unit: ['1 minute', '1 degree Celsius']
Programmatic Pattern: BigQuantityArrayP[{Minute, Celsius}]
Conductance
The chromatogram of conductance vs. time during the experiment for the conductivity detector.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 millisiemens per centimeter']
Programmatic Pattern: Siemens
Hold[QuantityMatrixP[{Minute, Milli ----------}]]
Centimeter
ConductivityFlowCell Temperature
The chromatogram of temperature vs. time inside the conductivity flow cell during the experiment. This data is used to calculate temperature compensation for Conductance data.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 degree Celsius']
Programmatic Pattern: QuantityMatrixP[{Minute, Celsius}]
pH
The chromatogram of pH vs. time during the experiment for the pH detector.
Format: Single
Class: QuantityArray
Unit: ['1 minute', 'None']
Programmatic Pattern: QuantityCoordinatesP[{Minute, None}]
pHFlowCellTemperature
The chromatogram of temperature vs. time inside the pH flow cell during the experiment. This data is used to calculate temperature compensation for pH data.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 degree Celsius']
Programmatic Pattern: QuantityMatrixP[{Minute, Celsius}]
FIDResponse
The chromatogram of Flame Ionization Detector (FID) response vs. time during the experiment for the Flame Ionization Detector.
Format: Single
Class: BigQuantityArray
Unit: ['1 minute', '1 picoampere']
Programmatic Pattern: BigQuantityArrayP[{Minute, Pico Ampere}]
Charge
The chromatogram of charge vs. time during the experiment for the electrochemical detector.
Format: Single
Class: QuantityArray
Unit: ['1 minute', '1 nanocoulomb']
Programmatic Pattern: QuantityCoordinatesP[{Minute, Nano Coulomb}]
Data Processing
MetaFile
The file containing the raw chromatography metadata.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[EmeraldCloudFile]
PressureFile
The file containing the raw chromatography pressure data.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[EmeraldCloudFile]
TemperatureFile
The file containing the raw chromatography temperature data.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[EmeraldCloudFile]
ChargeFile
The file containing the raw chromatography amperometry data.
Format: Single
Class: Link
Programmatic Pattern: _Link
Relation: Object[EmeraldCloudFile]
Analysis & Reports
FractionsPicked
The list of fractions picked by the user during the fraction analysis.
Format: Computable
Header: ['Collection Start Time', 'Collection End Time', 'Fraction Plate/Well Index']
Programmatic Pattern: {{GreaterEqualP[0], GreaterP[0], FractionStorageP}..}
Expression: SafeEvaluate[{Field[FractionPickingAnalysis]}, Computables`Private`fractionsPicked[Field[FractionPickingAnalysis]]]
FractionPickingAnalysis
The fractions analysis done on this data.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Analysis][Reference]
ChromatogramComposition Analyses
Sample composition analyses performed on the Absorbance.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
AbsorbancePeaksAnalyses
Peak picking analyses performed on the Absorbance.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Analysis][Reference]
SecondaryAbsorbancePeaks Analyses
Peak picking analyses performed on chromatogram B.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Analysis][Reference]
Absorbance3DPeaksAnalyses
Peak picking analyses performed on the Absorbance3D.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Analysis][Reference]
FluorescencePeaksAnalyses
Peak picking analyses performed on the Fluorescence.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Analysis][Reference]
SecondaryFluorescencePeaks Analyses
Peak picking analyses performed on the SecondaryFluorescence.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Analysis][Reference]
TertiaryFluorescencePeaks Analyses
Peak picking analyses performed on the TertiaryFluorescence.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Analysis][Reference]
QuaternaryFluorescencePeaks Analyses
Peak picking analyses performed on the QuaternaryFluorescence.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Analysis][Reference]
ScatteringPeaksAnalyses
Peak picking analyses performed on the Scattering.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Analysis][Reference]
ConductancePeaksAnalyses
Peak picking analyses performed on the Conductance data.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Analysis][Reference]
pHPeaksAnalyses
Peak picking analyses performed on the pH data.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Analysis][Reference]
FIDResponsePeaksAnalyses
Peak picking analyses performed on the Flame Ionization Detector response data.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Analysis][Reference]
ChargePeaksAnalyses
Peak picking analyses performed on the electrochemical data.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Analysis][Reference]
RefractiveIndexPeaksAnalysis
Peak picking analyses performed on the RefractiveIndex data.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Analysis][Reference]
CircularDichroismPeaks Analysis
Peak picking analyses performed on the CircularDichroism data.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Analysis][Reference]
MultiAngleLightScattering Analyses
The analyses performed on the Multi-Angle static Light Scattering (MALS) data to determine the molecular weight and radius of gyration distributions of the sample.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Analysis][Reference]
DynamicLightScattering Analyses
The analyses performed on the Dynamic Light Scattering (DLS) data to determine the hydrodynamic radius of the sample.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Analysis][Reference]
StandardAnalyses
The ladder analyses done on this data.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Analysis][Reference]
SmoothingAnalyses
Smoothing analysis performed on this data.
Format: Multiple
Class: Link
Programmatic Pattern: _Link
Relation: Object[Analysis][Reference]
StandardSizes
A list of the fragment sizes included in the ladder sample.
Format: Computable
Programmatic Pattern: {GreaterP[0]..}
Expression: SafeEvaluate[{Field[StandardAnalyses]}, Download[Field[StandardAnalyses][[-1]], Sizes]]
StandardPeaks
A list of rules linking each fragment length to its temporal appearance, in the form (fragment length -> time of appearance).
Format: Computable
Programmatic Pattern: {(GreaterP[0] -> GreaterEqualP[0])..}
Expression: SafeEvaluate[{Field[StandardAnalyses]}, Computables`Private`standardPeaks[Field[StandardAnalyses]]]
SizeFunction
A pure function which takes a retention time as input and returns an expected size as output (as interpolated by the ladder fit).
Format: Computable
Programmatic Pattern: _Function
Expression: SafeEvaluate[{Field[StandardAnalyses]}, Download[Field[StandardAnalyses][[-1]], ExpectedSize]]
RetentionFunction
A pure function which takes a fragment length as input and returns an expected retention time as output (as interpolated by the ladder fit).
Format: Computable
Programmatic Pattern: _Function
Expression: SafeEvaluate[{Field[StandardAnalyses]}, Download[Field[StandardAnalyses][[-1]], ExpectedPosition]]
Last modified on Mon 26 Sep 2022 15:43:44