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Chemical bonding in aqueous hexacyano cobaltate from photon- and electron-detection perspectivesWet chemical synthesis of graphene.Chemical Speciation and Bond Lengths of Organic Solutes by Core-Level Spectroscopy: pH and Solvent Influence on p-Aminobenzoic Acid.Joint Analysis of Radiative and Non-Radiative Electronic Relaxation Upon X-ray Irradiation of Transition Metal Aqueous SolutionsUndistorted X-ray Absorption Spectroscopy Using s-Core-Orbital Emissions.The Electronic Structure and Secondary Pyroelectric Properties of Lithium Tetraborate.Changes in the adsorbate dipole layer with changing d-filling of the metal (II) (Co, Ni, Cu) phthalocyanines on Au(111).Altering the static dipole on surfaces through chemistry: molecular films of zwitterionic quinonoids.Bulk-Sensitive Detection of the Total Ion Yield for X-ray Absorption Spectroscopy in Liquid Cells.Introducing Ionic-Current Detection for X-ray Absorption Spectroscopy in Liquid Cells.Crystalline ice grown on the surface of the ferroelectric polymer poly(vinylidene fluoride) (70%) and trifluoroethylene (30%).Intermolecular bonding of hemin in solution and in solid state probed by N K-edge X-ray spectroscopies.Analysis of the Electronic Structure of Aqueous Urea and Its Derivatives: A Systematic Soft X-Ray-TD-DFT Approach.Influence of the Outer Ligands on Metal-to-Ligand Charge Transfer in Solvated Manganese Porphyrins.Valence holes observed in nanodiamonds dispersed in water.Local energy gap opening induced by hemin dimerization in aqueous solution.Co(III) protoporphyrin IX chloride in solution: spin-state and metal coordination revealed from resonant inelastic X-ray scattering and electronic structure calculations.Assistance of the iron porphyrin ligands to the binding interaction between the Fe center and small molecules in solution.Surface state engineering of molecule–molecule interactionsThe interface bonding and orientation of a quinonoid zwitterionTemperature-Dependent Chemical and Structural Transformations from 2H-tetraphenylporphyrin to Copper(II)-Tetraphenylporphyrin on Cu(111)Diffusion, Rotation, and Surface Chemical Bond of Individual 2H-Tetraphenylporphyrin Molecules on Cu(111)Coordination and Metalation Bifunctionality of Cu with 5,10,15,20-Tetra(4-pyridyl)porphyrin: Toward a Mixed-Valence Two-Dimensional Coordination NetworkAbrupt Coverage-Induced Enhancement of the Self-Metalation of Tetraphenylporphyrin with Cu(111)Combined Photoemission and Scanning Tunneling Microscopy Study of the Surface-Assisted Ullmann Coupling ReactionCoordination Reactions and Layer Exchange Processes at a Buried Metal–Organic InterfaceCoverage- and Temperature-Dependent Metalation and Dehydrogenation of Tetraphenylporphyrin on Cu(111)The electronic structures of Co and Ni tetraazaannulenesElectrochemical flowcell for in-situ investigations by soft x-ray absorption and emission spectroscopyEnhancing catalytic activity by narrowing local energy gaps--X-ray studies of a manganese water oxidation catalystOn the Origin of the Improvement of Electrodeposited MnOx Films in Water Oxidation Catalysis Induced by Heat TreatmentElectronic structure of hemin in solution studied by resonant X-ray emission spectroscopy and electronic structure calculationsEvolution of Oxygen-Metal Electron Transfer and Metal Electronic States During Manganese Oxide Catalyzed Water Oxidation Revealed with In Situ Soft X-Ray SpectroscopyInfluence of surface chemistry on optical, chemical and electronic properties of blue luminescent carbon dotsCharacterization of the soft X-ray spectrometer PEAXIS at BESSY IIInsight into pH-Dependent Formation of Manganese Oxide Phases in Electrodeposited Catalytic Films Probed by Soft X-Ray Absorption SpectroscopyUncovering the Charge Transfer between Carbon Dots and Water by In Situ Soft X-ray Absorption Spectroscopy
P50
Q28816932-6A0960CD-0260-454A-87CA-80E6E81C8BB7Q34346419-A68E0ACE-DAAD-4FC3-B6B1-7993AEA2439AQ35895371-1310731F-2A2D-4506-987C-178870A76626Q36819492-9C630A53-351C-405C-B304-798623B96EF7Q38878103-BE258908-9625-453E-8668-73185B6ED988Q42140918-734D0EF6-6061-4CCC-B212-D2BC9EE3569AQ42728325-2F69D65B-32F3-47DB-A497-A4FE383F34F6Q45739191-1ADF7F88-364B-4AA3-B6D4-305D33845D97Q46294232-1EEE2EBD-2AF7-4788-9D4F-C2118358FE82Q46377989-AF9381CC-8AB5-4FE8-8907-66148A204793Q46838880-7A01E769-DA13-49FE-8D9E-6C612C5211CEQ51690539-45A4B179-B750-45FA-BBD2-EF9F43D3CEE6Q52849871-B1F3E601-62CA-4256-8222-8CCB99CD5043Q52859569-CE1BFF6B-309F-4DB8-86CE-325DA77BD825Q52870486-2F7E8DEE-0227-4BB6-AB56-127F3F4A99D2Q52870513-2C787842-30F3-4A26-949A-06E4B8712364Q52871039-7FB7C9B6-5EE3-44C5-B5BB-ADB87567804AQ52875296-F7CF6507-6196-496A-B389-C4374C6AA4BCQ56993158-103E786A-200B-4EC2-981A-15A4B8492E75Q57441854-9E80852C-CCA2-457E-A92B-43BF71BB1EABQ57648769-92599F0A-A19E-48AA-BDAF-7C607A7F7976Q57648778-4B1CC552-47E7-4C85-B321-37309212FAFCQ59625179-D0F6A6A2-441A-475D-8E4B-540345D106C9Q60317763-A379290E-2AF2-49B9-A923-79AD155B06DAQ60317779-94504E15-AC38-43EA-81F4-9419D566526AQ60317784-9F110791-9735-4FF7-8428-8395471141F3Q60317788-74CC93CC-41E3-48A5-A8F5-A992DCC32EB6Q79444065-7ADBF49B-AE1B-4C3C-B50E-9688E3888516Q85895827-36F60AA8-96B7-4144-BEF1-B8E5060B2D35Q86567054-0D8E5B26-B362-4E45-BB19-F28AE11AE45BQ87241150-47B48E8D-F3FE-4C31-87FA-84D18F0B1C5CQ87455377-01C0257C-5011-4EFE-BA71-39C233A8DB2FQ90771951-0849989E-F13C-4426-A8B3-C62F1351561EQ91052219-63796001-F8AE-4FB8-B180-64F3F9C20844Q92201848-C111EF3A-3DA5-4574-A839-B70E2570F220Q92722261-B3F1DCC3-DB35-46CC-BA9E-E742973C9EB8Q93072697-2953AE81-06D0-4F6D-861E-E32B863FA383
P50
description
researcher
@en
հետազոտող
@hy
name
Jie Xiao
@ast
Jie Xiao
@en
Jie Xiao
@es
Jie Xiao
@nl
Jie Xiao
@sl
type
label
Jie Xiao
@ast
Jie Xiao
@en
Jie Xiao
@es
Jie Xiao
@nl
Jie Xiao
@sl
prefLabel
Jie Xiao
@ast
Jie Xiao
@en
Jie Xiao
@es
Jie Xiao
@nl
Jie Xiao
@sl
P1053
E-9640-2012
P106
P2798
P31
P3829
P496
0000-0002-2320-6111