about
Electrophoretic separations on paper: Past, present, and future-A review.Recent advances in enhancing the sensitivity of electrophoresis and electrochromatography in capillaries and microchips (2014-2016).3D printed microfluidic devices: enablers and barriers.Comparing Microfluidic Performance of Three-Dimensional (3D) Printing Platforms.Fibre-based electrofluidics on low cost versatile 3D printed platforms for solute delivery, separations and diagnostics; from small molecules to intact cells.Enhanced physicochemical properties of polydimethylsiloxane based microfluidic devices and thin films by incorporating synthetic micro-diamond.Thread based electrofluidic platform for direct metabolite analysis in complex samples.Rapid screening of inorganic and organic anions in liquid by-products from hydrothermal treatment of biomass by capillary electrophoresis.Isotachophoretic Fluorescence in Situ Hybridization of Intact Bacterial Cells.In Silico Screening of Two-Dimensional Separation Selectivity for Ion Chromatography × Capillary Electrophoresis Separation of Low-Molecular-Mass Organic Acids.Characterisation of graphene fibres and graphene coated fibres using capacitively coupled contactless conductivity detector.Recent advances in enhancing the sensitivity of electrophoresis and electrochromatography in capillaries in microchips (2016-2018)Fast high-throughput method for the determination of acidity constants by capillary electrophoresis. II. Acidic internal standardsInternal standard capillary electrophoresis as a high-throughput method for pKa determination in drug discovery and developmentDetermination of acidity constants by the capillary electrophoresis internal standard method. IV. Polyprotic compoundsNovel Instrument for Automated pK(a) Determination by Internal Standard Capillary ElectrophoresisSelective capillary electrophoresis separation of mono and divalent cations within a high-surface area-to-volume ratio multi-lumen capillaryDetermination of acidity constants of sparingly soluble drugs in aqueous solution by the internal standard capillary electrophoresis method
P50
Q38634177-3B3239AC-5A62-43AE-8A49-B86203DC49D1Q38743455-EDE4E486-8ABA-4294-8133-0F9E078C2278Q38825864-17CB8B78-E082-48EE-992B-06AF55924D2FQ40450712-D3FCADDD-84AD-485B-888E-7326EB08D999Q40482346-4DEF8010-9D16-45F6-9FBA-776F75628AFEQ47103643-695A0601-BA20-41FA-AFB6-DE7706B9B10EQ47208696-D638BC59-1B00-43E2-825F-D1CDA9C11363Q47222586-9F9159F3-BBB3-42BC-BB4A-2FF8C563B9E0Q48118127-9760351E-373B-4625-8B4C-178F355FD81AQ48300406-B647DBDC-854E-47DF-8A9F-FAA5FAC42852Q51496972-06005D85-B216-47EB-95C3-E2789D6C18E5Q58541879-840D1161-155F-47AF-8664-02AAB62193FEQ82505813-4CE39847-B8A3-4752-835E-B01C9B5F4B90Q85212917-5FB09AD3-53E0-4015-87A6-0B0CB1232587Q85984489-6253C2F5-BA9D-481C-9275-B3C9CB545CDCQ87308275-261691A0-0B97-4569-9327-7126F6F9AB45Q91128809-22B48A78-1291-4FC2-BD7F-20057001A4E5Q95514857-4968540B-928B-4C62-A683-5F86552EE0BC
P50
description
Spaans onderzoeker
@nl
hulumtues
@sq
investigador español
@ast
químic mataroní
@ca
researcher
@en
taighdeoir
@ga
հետազոտող
@hy
name
Joan M. Cabot
@en
Joan M. Cabot
@es
Joan M. Cabot
@fr
Joan M. Cabot
@ga
Joan M. Cabot
@nl
Joan M. Cabot
@sl
Joan M. Cabot
@sq
Joan Marc Cabot
@ca
type
label
Joan M. Cabot
@en
Joan M. Cabot
@es
Joan M. Cabot
@fr
Joan M. Cabot
@ga
Joan M. Cabot
@nl
Joan M. Cabot
@sl
Joan M. Cabot
@sq
Joan Marc Cabot
@ca
prefLabel
Joan M. Cabot
@en
Joan M. Cabot
@es
Joan M. Cabot
@fr
Joan M. Cabot
@ga
Joan M. Cabot
@nl
Joan M. Cabot
@sl
Joan M. Cabot
@sq
Joan Marc Cabot
@ca
P1053
N-1144-2017
P106
P1153
37037094000
P19
P21
P27
P31
P3829
P496
0000-0002-3305-078X