about
Better cycling performances of bulk Sb in Na-ion batteries compared to Li-ion systems: an unexpected electrochemical mechanism.Highly active oxygen reduction non-platinum group metal electrocatalyst without direct metal-nitrogen coordinationTransition-Metal Carbodiimides as Molecular Negative Electrode Materials for Lithium- and Sodium-Ion Batteries with Excellent Cycling Properties.Unraveling the Nature of Sites Active toward Hydrogen Peroxide Reduction in Fe-N-C CatalystsEngineering of Iron-Based Magnetic Activated Carbon Fabrics for Environmental Remediation.Slow magnetic relaxation in a family of trigonal pyramidal iron(II) pyrrolide complexes.Magnetic and 57Fe Mössbauer study of the single molecule magnet behavior of a Dy3Fe7 coordination cluster.Reversible anionic redox chemistry in high-capacity layered-oxide electrodes.Hydrothermal Preparation, Crystal Chemistry, and Redox Properties of Iron Muscovite Clay.Optimized synthesis of Fe/N/C cathode catalysts for PEM fuel cells: a matter of iron-ligand coordination strength.Hydrothermal preparation and magnetic properties of NaFeSi2O6: nanowires vs bulk samples.Understanding the roles of anionic redox and oxygen release during electrochemical cycling of lithium-rich layered Li4FeSbO6.Room-temperature synthesis of iron-doped anatase TiO₂ for lithium-ion batteries and photocatalysis.Autocatalytic sonolysis of iron pentacarbonyl in room temperature ionic liquid [BuMeIm][Tf2N].Understanding Fundamentals and Reaction Mechanisms of Electrode Materials for Na-Ion Batteries.Synthesis, Structure, and Electrochemical Properties of Na3MB5O10 (M = Fe, Co) Containing M2+ in Tetrahedral Coordination.Structural chemistry and magnetic properties of Ln18Li8Rh(5-x)Fe(x)O39 (Ln = La, Nd).Formation of single domain magnetite by green rust oxidation promoted by microbial anaerobic nitrate-dependent iron oxidationElectrochemical Mechanism and Effect of Carbon Nanotubes on the Electrochemical Performance of Fe(PO)(OH)(HO) Cathode Material for Li-Ion BatteriesInvestigation of Fe incorporation in LnCr2Al20 (Ln = La, Gd, Yb) with 57Fe Mössbauer and Single Crystal X-ray DiffractionCrystal Growth, Transport, and the Structural and Magnetic Properties of Ln4FeGa12with Ln = Y, Tb, Dy, Ho, and ErInfluence of relative humidity on the structure and electrochemical performance of sustainable LiFeSO4F electrodes for Li-ion batteriesA 3.90 V iron-based fluorosulphate material for lithium-ion batteries crystallizing in the triplite structureAging Processes in Lithiated FeSn2 Based Negative Electrode for Li-Ion Batteries: A New Challenge for Tin Based Intermetallic MaterialsSynthesis of highly-active Fe–N–C catalysts for PEMFC with carbide-derived carbonsToward understanding the lithiation/delithiation process in Fe 0.5 TiOPO 4 /C electrode material for lithium-ion batteriesProbing active sites in iron-based catalysts for oxygen electro-reduction: A temperature-dependent 57 Fe Mössbauer spectroscopy studyRole of iron in Na 1.5Fe 0.5Ti 1.5(PO 4) 3/C as electrode material for Na-ion batteries studied by operando Mössbauer spectroscopyEffects of Relaxation on Conversion Negative Electrode Materials for Li-Ion Batteries: A Study of TiSnSb Using 119Sn Mössbauer and 7Li MAS NMR SpectroscopiesHow Should Iron and Titanium be Combined in Oxides to Improve Photoelectrochemical Properties?Mechanisms and Performances of Na1.5Fe0.5Ti1.5(PO4)3/C Composite as Electrode Material for Na-Ion BatteriesIdentification of catalytic sites for oxygen reduction in iron- and nitrogen-doped graphene materialsEngineered Magnetic Core–Shell SiO2/Fe Microspheres and “Medusa-like” Microspheres of SiO2/Iron Oxide/Carbon Nanofibers or NanotubesDegradation of Fe/N/C catalysts upon high polarization in acid mediumLow Temperature Preparation and Electrochemical Properties of LiFeSi2O6Study of the structural and thermal stability of Li0.3Co2/3Ni1/6Mn1/6O2119Sn Mössbauer spectroscopy study of the mechanism of lithium reaction with self-organized Ti1/2Sn1/2O2 nanotubesNuclear Forward Scattering of Synchrotron Radiation byRu99Synthesis, Magnetism, and 57Fe Mössbauer Spectroscopic Study of a Family of [Ln3Fe7] Coordination Clusters (Ln = Gd, Tb, and Er)Local ordering and magnetism in Ga0.9Fe3.1N
P50
Q33456509-E0296F5A-6A49-4C73-AD59-1D2E09469F63Q35813464-369FBEE5-89F9-47C5-945A-9D00B4D6526BQ39910236-94976CA6-F5F4-46F6-A113-50EFE5A8D35FQ41077063-390434CB-1DCE-4504-A751-6903B9FA8711Q42011960-03DD77A6-C078-4674-A781-0AE408A63FB3Q42782353-5ECD5759-AE53-4E7D-9529-5283D697C0A1Q43284974-6DC5ECA5-399D-4D84-AFEA-89F191E848EFQ44101414-4D10FF4B-6FE7-4990-AA65-22F59E0D272DQ45028701-A7D9BE4D-3CED-4212-864E-2A1099906030Q45671173-D268016E-EC7F-443F-9940-34218AFF7939Q46660589-129C1889-5C95-4335-865A-B2DE32061D53Q46753275-9C85B7EE-7762-49BE-9F5F-7F1F53D7243CQ46840253-80E07E32-260A-4069-AC61-C22FABED0590Q47837049-491E78F1-8D8D-4506-A3A6-134C1FD20DF0Q48041582-8C201D75-FF5D-4251-98C1-B22378C33292Q52775241-E02651C5-B0D5-4618-80DB-3C028435459BQ53468807-2DC5FEF2-504F-4DA7-B5B1-D2AACB1FBA0CQ57225375-8DB18EE3-D561-47E3-B189-C45AD3D00763Q57282351-D045844A-6792-4D6C-BCF9-5CE8BA88B420Q57589019-6264223A-673C-4F36-8456-BCDCAFC33928Q57589033-3762E3A0-2F42-468A-8399-E935C1A532C0Q57606267-BE4EE021-41EF-4997-A3B4-46037BA31589Q57951952-2401EF20-32FC-4D1B-ABB8-57EB6D15CEBCQ57964984-79165189-65C3-4580-BD49-8A52286962A8Q58862986-842A64E0-552E-4D6B-B524-BD304468E26DQ58863009-5F07BF93-B9FC-4BBC-9BE0-7F82407736DFQ58863013-180FAA41-5510-4678-85E7-60805ADF9D2AQ58863018-D4E60705-E584-45E3-B2FA-5C0DB436A65CQ58863021-17F84BB3-5D2C-498E-8365-9C38D8619B02Q58863025-8FBF3919-4C80-4DB3-B3DE-E735C237AD76Q58863040-9E8FF25D-F879-4ED1-B656-CFABABB5B874Q58863045-D06B3EC9-D4C2-4769-B652-83F2944B740AQ58863090-B278BD95-7305-446C-A4F4-33FF588CD465Q58863098-52E9717F-9A68-4464-BD33-CBC9C54E8748Q58863101-5E428F6A-4E8E-4696-9611-360AF72DA28EQ58863103-E646061C-2569-4D1E-A562-9F35E5AA775AQ58863107-44CDF23B-7237-431B-89FF-F692EF043B1EQ58863123-68BB2DE2-7304-4152-8A29-1EE9D82C3EBFQ58863127-A69AE1E9-C8C9-40AD-A98B-5FF3FD39CDC9Q58863196-6C39B503-F251-4E4A-BD3E-F13D7A5B95DD
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Moulay T. Sougrati
@ast
Moulay T. Sougrati
@en
Moulay T. Sougrati
@es
Moulay T. Sougrati
@nl
Moulay T. Sougrati
@sl
type
label
Moulay T. Sougrati
@ast
Moulay T. Sougrati
@en
Moulay T. Sougrati
@es
Moulay T. Sougrati
@nl
Moulay T. Sougrati
@sl
prefLabel
Moulay T. Sougrati
@ast
Moulay T. Sougrati
@en
Moulay T. Sougrati
@es
Moulay T. Sougrati
@nl
Moulay T. Sougrati
@sl
P108
P1053
B-6283-2011
P106
P1153
15754676600
P31
P3829
P496
0000-0003-3740-2807