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WKP|Q75374090
(VIAF cluster)
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(WKP)Q75374090
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0000-0001-8575-9603
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orcid
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6603596040
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scopus
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(OCoLC)Q75374090
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Maria-Jose Ruiz-Angel
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researcher
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M J Ruiz-Angel
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onderzoeker
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nl
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670
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Author's 1-Hexyl-3-methyl imidazolium tetrafluoroborate: An efficient column enhancer for the separation of basic drugs by reversed-phase liquid chromatography
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Author's Adsorption of the anionic surfactant sodium dodecyl sulfate on a C18column under micellar and high submicellar conditions in reversed-phase liquid chromatography
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Author's Are analysts doing method validation in liquid chromatography?
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670
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Author's Comparative study of solvation parameter models accounting the effects of mobile phase composition in reversed-phase liquid chromatography
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670
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Author's Comparison of two serially coupled column systems and optimization software in isocratic liquid chromatography for resolving complex mixtures
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670
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Author's Correction of the deviations in the retention times with Chromolith columns associated to the flow rate: Implications in the modelling of the retention behaviour
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670
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Author's Countercurrent chromatography: people and applications.
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670
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Author's Effects of pH and the presence of micelles on the resolution of diuretics by reversed-phase liquid chromatography.
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670
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Author's Elution-extrusion countercurrent chromatography. Use of the liquid nature of the stationary phase to extend the hydrophobicity window.
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670
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Author's Gaining insight in the behaviour of imidazolium-based ionic liquids as additives in reversed-phase liquid chromatography for the analysis of basic compounds
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670
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Author's Half-width plots, a simple tool to predict peak shape, reveal column kinetics and characterise chromatographic columns in liquid chromatography: state of the art and new results.
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670
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Author's Hydrophobicity of ionisable compounds studied by countercurrent chromatography
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670
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Author's Implementation of gradients of organic solvent in micellar liquid chromatography using DryLab®: Separation of basic compounds in urine samples
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670
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Author's Interpretive optimisation of organic solvent content and flow-rate in the separation of β-blockers with a Chromolith RP-18e column
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670
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Author's Ionic liquids versus triethylamine as mobile phase additives in the analysis of beta-blockers.
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670
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Author's Micellar liquid chromatography in doping control.
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670
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Author's Micellar liquid chromatography: suitable technique for screening analysis.
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670
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Author's Micellar versus hydro-organic mobile phases for retention-hydrophobicity relationship studies with ionizable diuretics and an anionic surfactant.
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670
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Author's Micellar versus hydro-organic reversed-phase liquid chromatography: a solvation parameter-based perspective.
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670
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Author's Nonmolecular solvents in separation methods: dual nature of room temperature ionic liquids.
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670
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Author's On the use of ionic liquids as mobile phase additives in high-performance liquid chromatography. A review.
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670
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Author's Origin and correction of the deviations in retention times at increasing flow rate with Chromolith columns.
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670
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Author's Peak half-width plots to study the effect of organic solvents on the peak performance of basic drugs in micellar liquid chromatography.
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670
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Author's Performance of a Chromolith RP-18e column for the screening of beta-blockers.
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670
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Author's Performance of different C18 columns in reversed-phase liquid chromatography with hydro-organic and micellar-organic mobile phases
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670
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Author's Performance of short-chain alcohols versus acetonitrile in the surfactant-mediated reversed-phase liquid chromatographic separation of β-blockers.
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670
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Author's Retention mechanisms for basic drugs in the submicellar and micellar reversed-phase liquid chromatographic modes.
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670
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Author's Retention mechanisms in micellar liquid chromatography.
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670
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Author's Reversed-phase liquid chromatography analysis of alkyl-imidazolium ionic liquids II. Effects of different added salts and stationary phase influence
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670
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Author's Silanol suppressing potency of alkyl-imidazolium ionic liquids on C18 stationary phases.
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670
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Author's Solvent systems for countercurrent chromatography: An aqueous two phase liquid system based on a room temperature ionic liquid
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670
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Author's The role of the dual nature of ionic liquids in the reversed-phase liquid chromatographic separation of basic drugs
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909
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(orcid) 0000000185759603
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909
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(scopus) 6603596040
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1
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919
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1hexyl3methylimidazoliumtetrafluoroborateanefficientcolumnenhancerfortheseparationofbasicdrugsbyreversedphaseliquidchromatography
‡A
1-Hexyl-3-methyl imidazolium tetrafluoroborate: An efficient column enhancer for the separation of basic drugs by reversed-phase liquid chromatography
‡9
1
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919
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‡a
adsorptionoftheanionicsurfactantsodiumdodecylsulfateonac18columnundermicellarandhighsubmicellarconditionsinreversedphaseliquidchromatography
‡A
Adsorption of the anionic surfactant sodium dodecyl sulfate on a C18column under micellar and high submicellar conditions in reversed-phase liquid chromatography
‡9
1
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919
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areanalystsdoingmethodvalidationinliquidchromatography
‡A
Are analysts doing method validation in liquid chromatography?
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1
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919
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comparativestudyofsolvationparametermodelsaccountingtheeffectsofmobilephasecompositioninreversedphaseliquidchromatography
‡A
Comparative study of solvation parameter models accounting the effects of mobile phase composition in reversed-phase liquid chromatography
‡9
1
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919
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‡a
comparisonof2seriallycoupledcolumnsystemsandoptimizationsoftwareinisocraticliquidchromatographyforresolvingcomplexmixtures
‡A
Comparison of two serially coupled column systems and optimization software in isocratic liquid chromatography for resolving complex mixtures
‡9
1
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919
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‡a
correctionofthedeviationsintheretentiontimeswithchromolithcolumnsassociatedtotheflowrateimplicationsinthemodellingoftheretentionbehaviour
‡A
Correction of the deviations in the retention times with Chromolith columns associated to the flow rate: Implications in the modelling of the retention behaviour
‡9
1
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919
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countercurrentchromatographypeopleandapplications
‡A
Countercurrent chromatography: people and applications.
‡9
1
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919
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effectsofphandthepresenceofmicellesontheresolutionofdiureticsbyreversedphaseliquidchromatography
‡A
Effects of pH and the presence of micelles on the resolution of diuretics by reversed-phase liquid chromatography.
‡9
1
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919
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elutionextrusioncountercurrentchromatographyuseoftheliquidnatureofthestationaryphasetoextendthehydrophobicitywindow
‡A
Elution-extrusion countercurrent chromatography. Use of the liquid nature of the stationary phase to extend the hydrophobicity window.
‡9
1
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919
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gaininginsightinthebehaviourofimidazoliumbasedionicliquidsasadditivesinreversedphaseliquidchromatographyfortheanalysisofbasiccompounds
‡A
Gaining insight in the behaviour of imidazolium-based ionic liquids as additives in reversed-phase liquid chromatography for the analysis of basic compounds
‡9
1
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919
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‡a
halfwidthplotsasimpletooltopredictpeakshaperevealcolumnkineticsandcharacterisechromatographiccolumnsinliquidchromatographystateoftheartandnewresults
‡A
Half-width plots, a simple tool to predict peak shape, reveal column kinetics and characterise chromatographic columns in liquid chromatography: state of the art and new results.
‡9
1
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919
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hydrophobicityofionisablecompoundsstudiedbycountercurrentchromatography
‡A
Hydrophobicity of ionisable compounds studied by countercurrent chromatography
‡9
1
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919
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‡a
implementationofgradientsoforganicsolventinmicellarliquidchromatographyusingdrylabseparationofbasiccompoundsinurinesamples
‡A
Implementation of gradients of organic solvent in micellar liquid chromatography using DryLab®: Separation of basic compounds in urine samples
‡9
1
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919
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‡a
interpretiveoptimisationoforganicsolventcontentandflowrateintheseparationofβblockerswithachromolithrp18ecolumn
‡A
Interpretive optimisation of organic solvent content and flow-rate in the separation of β-blockers with a Chromolith RP-18e column
‡9
1
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919
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‡a
ionicliquidsversustriethylamineasmobilephaseadditivesintheanalysisofbetablockers
‡A
Ionic liquids versus triethylamine as mobile phase additives in the analysis of beta-blockers.
‡9
1
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919
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micellarliquidchromatographyindopingcontrol
‡A
Micellar liquid chromatography in doping control.
‡9
1
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919
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micellarliquidchromatographysuitabletechniqueforscreeninganalysis
‡A
Micellar liquid chromatography: suitable technique for screening analysis.
‡9
1
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919
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‡a
micellarversushydroorganicmobilephasesforretentionhydrophobicityrelationshipstudieswithionizablediureticsandananionicsurfactant
‡A
Micellar versus hydro-organic mobile phases for retention-hydrophobicity relationship studies with ionizable diuretics and an anionic surfactant.
‡9
1
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919
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‡a
micellarversushydroorganicreversedphaseliquidchromatographyasolvationparameterbasedperspective
‡A
Micellar versus hydro-organic reversed-phase liquid chromatography: a solvation parameter-based perspective.
‡9
1
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919
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‡a
nonmolecularsolventsinseparationmethodsdualnatureofroomtemperatureionicliquids
‡A
Nonmolecular solvents in separation methods: dual nature of room temperature ionic liquids.
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1
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919
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ontheuseofionicliquidsasmobilephaseadditivesinhighperformanceliquidchromatographyareview
‡A
On the use of ionic liquids as mobile phase additives in high-performance liquid chromatography. A review.
‡9
1
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919
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‡a
originandcorrectionofthedeviationsinretentiontimesatincreasingflowratewithchromolithcolumns
‡A
Origin and correction of the deviations in retention times at increasing flow rate with Chromolith columns.
‡9
1
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919
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‡a
peakhalfwidthplotstostudytheeffectoforganicsolventsonthepeakperformanceofbasicdrugsinmicellarliquidchromatography
‡A
Peak half-width plots to study the effect of organic solvents on the peak performance of basic drugs in micellar liquid chromatography.
‡9
1
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919
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‡a
performanceofachromolithrp18ecolumnforthescreeningofbetablockers
‡A
Performance of a Chromolith RP-18e column for the screening of beta-blockers.
‡9
1
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919
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‡a
performanceofdifferentc18columnsinreversedphaseliquidchromatographywithhydroorganicandmicellarorganicmobilephases
‡A
Performance of different C18 columns in reversed-phase liquid chromatography with hydro-organic and micellar-organic mobile phases
‡9
1
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919
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‡a
performanceofshortchainalcoholsversusacetonitrileinthesurfactantmediatedreversedphaseliquidchromatographicseparationofβblockers
‡A
Performance of short-chain alcohols versus acetonitrile in the surfactant-mediated reversed-phase liquid chromatographic separation of β-blockers.
‡9
1
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919
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‡a
retentionmechanismsforbasicdrugsinthesubmicellarandmicellarreversedphaseliquidchromatographicmodes
‡A
Retention mechanisms for basic drugs in the submicellar and micellar reversed-phase liquid chromatographic modes.
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1
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919
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retentionmechanismsinmicellarliquidchromatography
‡A
Retention mechanisms in micellar liquid chromatography.
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1
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919
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reversedphaseliquidchromatographyanalysisofalkylimidazoliumionicliquids2effectsofdifferentaddedsaltsandstationaryphaseinfluence
‡A
Reversed-phase liquid chromatography analysis of alkyl-imidazolium ionic liquids II. Effects of different added salts and stationary phase influence
‡9
1
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919
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silanolsuppressingpotencyofalkylimidazoliumionicliquidsonc18stationaryphases
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Silanol suppressing potency of alkyl-imidazolium ionic liquids on C18 stationary phases.
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1
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919
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solventsystemsforcountercurrentchromatographyanaqueous2phaseliquidsystembasedonaroomtemperatureionicliquid
‡A
Solvent systems for countercurrent chromatography: An aqueous two phase liquid system based on a room temperature ionic liquid
‡9
1
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919
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roleofthedualnatureofionicliquidsinthereversedphaseliquidchromatographicseparationofbasicdrugs
‡A
The role of the dual nature of ionic liquids in the reversed-phase liquid chromatographic separation of basic drugs
‡9
1
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