about
Cathodic pseudopolarography: a new tool for the identification and quantification of cysteine, cystine and other low molecular weight thiols in seawater.Miniaturization in voltammetry: ultratrace element analysis and speciation with twenty-fold sample size reduction.The influence of sheep age group on the seasonal prevalence of oestrosis in the island of Majorca.Controls of primary production in two phytoplankton blooms in the Antarctic Circumpolar Current.Ultrasensitive and Fast Voltammetric Determination of Iron in Seawater by Atmospheric Oxygen Catalysis in 500 μL Samples.Salt-marsh areas as copper complexing ligand sources to estuarine and coastal systems.Pressure-driven mesofluidic platform integrating automated on-chip renewable micro-solid-phase extraction for ultrasensitive determination of waterborne inorganic mercury.Towards a zero-blank, preconcentration-free voltammetric method for iron analysis at picomolar concentrations in unbuffered seawater.Determination of humic substances in natural waters by cathodic stripping voltammetry of their complexes with ironCopper adsorption in diatom culturesCopper speciation in continental inputs to the Vigo Ria: sewage discharges versus river fluxesWavelength dependence of the photochemical reduction of iron in arctic seawaterDirect recognition and quantification by voltammetry of thiol/thioamide mixes in seawaterCadmium determination in natural water samples with an automatic multisyringe flow injection system coupled to a flow-through screen printed electrodeDetermination of the contribution of humic substances to iron complexation in seawater by catalytic cathodic stripping voltammetryFirst Quantification of the Controlling Role of Humic Substances in the Transport of Iron Across the Surface of the Arctic Ocean
P50
Q35197009-7986E154-5382-4AA7-82C9-1F3072B986C0Q39127970-FD7F68D0-5647-4E37-8E7A-1DF6309BDF05Q39673696-C1DB57FB-B6FB-4139-974F-A61678C32045Q42128512-404316EA-0EF4-460F-87A9-DF9EC9EEA640Q46724148-F76F5C91-399B-466C-B31B-782365CB7FEEQ46727608-B1AB2158-212B-4FC6-9EA7-8EB7EEAB5C3EQ51531915-72036C6B-75C7-47E4-88D1-0A4B9D1E432EQ53279263-83F8724D-D411-4A5F-8BC4-C8450E9453D6Q57354373-3F911785-9E2E-483B-A742-F9C1E6B1917AQ58067585-D918C064-6681-402E-BE60-D534E86B0DFDQ80134870-05EC3909-3727-4E10-B566-F6785D7F7ADBQ80168496-53FA1425-35C8-4950-A1F8-54A86F4E4CB1Q83343760-0AA4DFDC-3885-46BC-89CC-2EB2A3B235D3Q84593543-F0F2323F-1366-49BD-860C-4B77A6343843Q90822222-15645C89-DF6F-40BD-B37F-B0428CC7E798Q90869587-BBB67CD5-4B2A-4677-ABAF-5FE4022AE89A
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Luis M Laglera
@es
Luis M Laglera
@nl
Luis M Laglera
@sl
Luis M. Laglera
@en
type
label
Luis M Laglera
@es
Luis M Laglera
@nl
Luis M Laglera
@sl
Luis M. Laglera
@en
prefLabel
Luis M Laglera
@es
Luis M Laglera
@nl
Luis M Laglera
@sl
Luis M. Laglera
@en
P1053
B-7983-2010
P106
P1153
6508191494
P21
P31
P3829
P496
0000-0002-5941-5900