about
Biases in ion transmission through an electrospray ionization-mass spectrometry capillary inletSelection of the optimum electrospray voltage for gradient elution LC-MS measurementsInternal energy of ions generated by matrix-assisted laser desorption/ionization.Competing ion decomposition channels in matrix-assisted laser desorption ionization.Improving liquid chromatography-mass spectrometry sensitivity using a subambient pressure ionization with nanoelectrospray (SPIN) interface.Improving N-glycan coverage using HPLC-MS with electrospray ionization at subambient pressure.Improving the sensitivity of mass spectrometry by using a new sheath flow electrospray emitter array at subambient pressures.GlyQ-IQ: glycomics quintavariate-informed quantification with high-performance computing and GlycoGrid 4D visualization.Polysialylated N-glycans identified in human serum through combined developments in sample preparation, separations, and electrospray ionization-mass spectrometry.Dilution-free analysis from picoliter droplets by nano-electrospray ionization mass spectrometryAchieving 50% ionization efficiency in subambient pressure ionization with nanoelectrospray.On the ionization and ion transmission efficiencies of different ESI-MS interfaces.Nanoelectrospray emitter arrays providing interemitter electric field uniformity.Analytical characterization of the electrospray ion source in the nanoflow regime.Effect of pressure on electrospray characteristics.Picoelectrospray ionization mass spectrometry using narrow-bore chemically etched emittersThe role of diode array ultraviolet detection for the identification of synthetic cathinones.Charge Reduction in Electrosprays: Slender Nanojets as IntermediatesFlexing the Electrified Meniscus: The Birth of a Jet in ElectrospraysSolvated Ion Evaporation from Charged Water NanodropletsThe role of ultra high performance liquid chromatography with time of flight detection for the identification of synthetic cannabinoids in seized drugsDiscrimination of synthetic cathinones by GC-MS and GC-MS/MS using cold electron ionizationEnantiomeric Identification of Pregabalin by GC-MS via Methylation and S-TPC Chiral DerivatizationDifferentiation of fentanyl analogues by low-field NMR spectroscopyAnalysis of fentanyl derivatives by ultra high performance liquid chromatography with diode array ultraviolet and single quadrupole mass spectrometric detection
P50
Q24630571-0F6DC01A-DBC9-461B-B7EE-F98999364A89Q24649678-0AD5FDC7-3E4D-483F-B4C8-32205A0880B3Q31123665-2B0BC527-5223-43C9-AA25-515BA67B1E07Q33335859-B6A5FFE2-7021-4ADA-BC36-71016F1E9F73Q33452010-98D7CB84-7F7E-4A45-9E70-F837DCF4C5A5Q33456015-D90AF7FF-E186-4830-B958-18873FA0EB29Q33461185-F8135E4B-AD7C-4D98-A510-5D3B840E430BQ33847701-F231CFB0-E6C7-46EC-A475-48C86922ED33Q34120306-0D70DE2E-732F-4516-99C5-EFD7E64EAC0EQ34211779-E043B8C5-E481-46D2-9E53-187978824E9AQ34315522-EB369DF5-C72F-4614-B720-CAD55CE8832FQ34772413-F7B5DDDE-A243-4BE5-AFD8-823265E4495FQ36984461-77C5A7AC-F198-4652-8D55-65B62E49A853Q37217075-DD4B6612-C371-4D25-998C-8FD9CEA515BEQ41884023-6756EF27-72E0-45C0-A361-A99C0CBFB680Q42005457-F554300E-4331-4DAA-AE86-79ED2A292C20Q48351924-4CD993DE-271E-41F8-A9EE-7238A282BBB9Q63383992-BDE945DD-F67C-42A5-A261-1B9F8E0C9188Q63383997-C57ACAB7-71A3-4232-9304-41FD39CDE5C9Q63384005-CC03B952-92D5-42CF-BD51-45EA8B58DCC4Q63485546-9660D6B6-0453-4207-BBA1-32DAFFF65B13Q88605822-7AFE5426-3093-4480-855E-44615701E790Q90775449-EB972A5C-BF7E-40AC-B89F-90945236B5D5Q90907765-D1FF1567-6BA5-4F06-8CF0-40127E988139Q92096981-B2DA8B06-C45D-4F0A-B130-6E950F2B37C1
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Ioan Marginean
@ast
Ioan Marginean
@en
Ioan Marginean
@es
Ioan Marginean
@nl
Ioan Marginean
@sl
type
label
Ioan Marginean
@ast
Ioan Marginean
@en
Ioan Marginean
@es
Ioan Marginean
@nl
Ioan Marginean
@sl
prefLabel
Ioan Marginean
@ast
Ioan Marginean
@en
Ioan Marginean
@es
Ioan Marginean
@nl
Ioan Marginean
@sl
P1053
A-4183-2008
P106
P21
P31
P3829
P496
0000-0002-6693-0361
P569
2000-01-01T00:00:00Z