| Nome |
# |
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Low-dimensional systems investigated by x-ray absorption spectroscopy: a selection of 2D, 1D and 0D cases, file e27ce426-f296-2581-e053-d805fe0acbaa
|
788
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|
Materials characterization by synchrotron x-ray microprobes and nanoprobes, file e27ce42d-d4e0-2581-e053-d805fe0acbaa
|
712
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|
Determination of the electronic and structural configuration of coordination compounds by synchrotron-radiation techniques, file e27ce427-0567-2581-e053-d805fe0acbaa
|
599
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|
Insight into non-linearly shaped superconducting whiskers via a synchrotron nanoprobe, file e27ce427-ac0d-2581-e053-d805fe0acbaa
|
441
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|
Selective Catalytic Olefin Epoxidation with MnII-Exchanged MOF-5, file e27ce42c-a71d-2581-e053-d805fe0acbaa
|
385
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|
Insights into Adsorption of NH3 on HKUST-1 Metal–Organic Framework: A Multitechnique Approach, file e27ce426-ee9c-2581-e053-d805fe0acbaa
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309
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|
THORONDOR: a software for fast treatment and analysis of low-energy XAS data, file e27ce430-d553-2581-e053-d805fe0acbaa
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259
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A consistent reaction scheme for the selective catalytic reduction of nitrogen oxides with ammonia, file e27ce429-0870-2581-e053-d805fe0acbaa
|
238
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Structural and electronic characterization of nano-sized inorganic materials by X-ray Absorption Spectroscopies, file e27ce426-e5e4-2581-e053-d805fe0acbaa
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226
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Synthesis, characterization and CO2 uptake of a chiral Co(II) Metal-Organic Framework containing a thiazolidine-based spacer, file e27ce426-d530-2581-e053-d805fe0acbaa
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223
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|
Interaction of NH3 with Cu-SSZ-13 catalyst: a complementary FTIR, XANES and XES study, file e27ce427-0a04-2581-e053-d805fe0acbaa
|
218
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Monte Carlo analysis of the oxygen knock-on effects induced by synchrotron X-ray radiation in the Bi2Sr2CaCu2O8+δ superconductor, file e27ce42c-8a40-2581-e053-d805fe0acbaa
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217
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|
Probing reactive platinum sites in uio-67 zirconium metal-organic frameworks, file e27ce427-d3ca-2581-e053-d805fe0acbaa
|
200
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|
Probing Structure and Reactivity of Metal Centers in Metal–Organic Frameworks by XAS Techniques, file e27ce42c-454a-2581-e053-d805fe0acbaa
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193
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|
A XAFS study of the local environment and reactivity of Pt- sites in functionalized UiO-67 MOFs, file e27ce42b-4025-2581-e053-d805fe0acbaa
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188
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|
Understanding and Optimizing the Performance of Cu-FER for The Direct CH4 to CH3OH Conversion, file e27ce42e-e6e2-2581-e053-d805fe0acbaa
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184
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|
Composition-driven Cu-speciation and reducibility in Cu-CHA zeolite catalysts: A multivariate XAS/FTIR approach to complexity, file e27ce42c-0b5d-2581-e053-d805fe0acbaa
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181
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|
Formation and growth of palladium nanoparticles inside porous poly(4-vinyl-pyridine) monitored by operando techniques: The role of different reducing agents, file e27ce42b-0199-2581-e053-d805fe0acbaa
|
174
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|
X-ray transient absorption structural characterization of the 3MLCT triplet excited state of cis-[Ru(bpy)2(py)2]2+, file e27ce426-e548-2581-e053-d805fe0acbaa
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173
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XAS Spectroscopy: Related Techniques and Combination with other Spectroscopic and Scattering Methods, file e27ce42b-2717-2581-e053-d805fe0acbaa
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155
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Revisiting the nature of Cu-sites in activated Cu-SSZ-13 catalyst for SCR reaction, file e27ce427-05d1-2581-e053-d805fe0acbaa
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153
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Formation and Growth of Pd Nanoparticles Inside a Highly Cross-Linked Polystyrene Support: Role of the Reducing Agent, file e27ce428-f467-2581-e053-d805fe0acbaa
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147
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Micro and nano X-ray beams, file e27ce42b-4845-2581-e053-d805fe0acbaa
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140
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Maskless X-Ray Writing of Electrical Devices on a Superconducting Oxide with Nanometer Resolution and Online Process Monitoring, file e27ce42c-0480-2581-e053-d805fe0acbaa
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134
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Active sites in Cu-SSZ-13 deNOx catalyst under reaction conditions: A XAS/XES perspective, file e27ce42b-5cd3-2581-e053-d805fe0acbaa
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132
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Comparing the Nature of Active Sites in Cu-loaded SAPO-34 and SSZ-13 for the Direct Conversion of Methane to Methanol, file e27ce42f-437a-2581-e053-d805fe0acbaa
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130
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XAS on Rh and Ir metal sites in post synthetically functionalized UiO-67 Zirconium MOFs, file e27ce42b-1e8a-2581-e053-d805fe0acbaa
|
112
|
|
EXAFS wavelet transform analysis of Cu-MOR zeolites for the direct methane to methanol conversion, file e27ce431-ec8c-2581-e053-d805fe0acbaa
|
95
|
|
Doping change in the Bi-2212 superconductor directly induced by a hard X-ray nano-beam, file e27ce426-ffbf-2581-e053-d805fe0acbaa
|
92
|
|
Quo vadis niobium ? Divergent coordination behavior of early-transition metals towards MOF-5, file e27ce42f-2677-2581-e053-d805fe0acbaa
|
87
|
|
Bridging Solution and Solid-State Chemistry of Dicyanoaurate: The Case Study of Zn-Au Nucleation Units, file e27ce431-239c-2581-e053-d805fe0acbaa
|
82
|
|
Cu-Exchanged Ferrierite Zeolite for the Direct CH4 to CH3OH Conversion: Insights on Cu Speciation from X-Ray Absorption Spectroscopy, file e27ce42f-1812-2581-e053-d805fe0acbaa
|
77
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|
Structure of [Ru(bpy)n(AP)(6−2n)]2+ homogeneous complexes: ab initio calculation vs. EXAFS, file e27ce426-adee-2581-e053-d805fe0acbaa
|
76
|
|
Iron oxidation state in garnet from a subduction setting: a micro-XANES and electron microprobe (“flank method”) comparative study, file e27ce426-ec0c-2581-e053-d805fe0acbaa
|
73
|
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The Nuclearity of the Active Site for Methane to Methanol Conversion in Cu-Mordenite: A Quantitative Assessment, file e27ce42d-db7a-2581-e053-d805fe0acbaa
|
72
|
|
Spectral decomposition of x-ray absorption spectroscopy datasets: Methods and applications, file e27ce431-02bd-2581-e053-d805fe0acbaa
|
70
|
|
Exploring structure and reactivity of Cu sites in functionalized UiO-67 MOFs, file e27ce42b-3d92-2581-e053-d805fe0acbaa
|
68
|
|
Characterization of MOFs. 2. Long and Local Range Order Structural Determination of MOFs by Combining EXAFS and Diffraction Techniques, file e27ce42b-28da-2581-e053-d805fe0acbaa
|
66
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|
Photo-Induced Pyridine Substitution in cis-[Ru(bpy)2(py)2]Cl2: A Snapshot by Time-Resolved X-ray Solution Scattering, file e27ce426-c6bb-2581-e053-d805fe0acbaa
|
59
|
|
Micro and nano X-ray beams, file e27ce426-eea1-2581-e053-d805fe0acbaa
|
56
|
|
On the conversion of CO2to value added products over composite PdZn and H-ZSM-5 catalysts: Excess Zn over Pd, a compromise or a penalty?, file e27ce431-0a6e-2581-e053-d805fe0acbaa
|
56
|
|
Direct-Write X-ray Nanopatterning: A Proof of Concept Josephson Device on Bi2Sr2CaCu2O8+δ Superconducting Oxide, file e27ce428-9d23-2581-e053-d805fe0acbaa
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55
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Pd nanoparticles formation inside porous polymeric scaffolds followed by in situ XANES/SAXS, file e27ce42a-2543-2581-e053-d805fe0acbaa
|
52
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Quantitative structural determination of active sites from in situ and operando XANES spectra: From standard ab initio simulations to chemometric and machine learning approaches, file e27ce42e-9ff6-2581-e053-d805fe0acbaa
|
51
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|
β-Cyclodextrin-Silica Hybrid: A Spatially Controllable Anchoring Strategy for Cu(II)/Cu(I) Complex Immobilization, file e27ce430-e63b-2581-e053-d805fe0acbaa
|
51
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|
Co-catalyst free ethene dimerization over Zr-based metal-organic framework (UiO-67) functionalized with Ni and bipyridine, file e27ce434-9bb3-2581-e053-d805fe0acbaa
|
51
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|
Redox-Driven Migration of Copper Ions in the Cu-CHA Zeolite as Shown by the In Situ PXRD/XANES Technique, file e27ce42b-efee-2581-e053-d805fe0acbaa
|
48
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Multifunctional Catalyst Combination for the Direct Conversion of CO2 to Propane, file e27ce434-86c8-2581-e053-d805fe0acbaa
|
46
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|
Finding the active species: The conversion of methanol to aromatics over Zn-ZSM-5/alumina shaped catalysts, file e27ce434-87b0-2581-e053-d805fe0acbaa
|
46
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|
In situ X-ray absorption study of Cu species in Cu-CHA catalysts for NH3-SCR during temperature-programmed reduction in NO/NH3, file e27ce432-ebbb-2581-e053-d805fe0acbaa
|
45
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|
CO2 hydrogenation to methanol and hydrocarbons over bifunctional Zn-doped ZrO2/zeolite catalysts, file e27ce434-6564-2581-e053-d805fe0acbaa
|
45
|
|
Investigating the role of Cu-oxo species in Cu-nitrate formation over Cu-CHA catalysts, file e27ce432-8bec-2581-e053-d805fe0acbaa
|
44
|
|
Nitrate–nitrite equilibrium in the reaction of NO with a Cu-CHA catalyst for NH3-SCR, file e27ce42a-edd3-2581-e053-d805fe0acbaa
|
42
|
|
Methane to Methanol: Structure-Activity Relationships for Cu-CHA, file e27ce42c-2273-2581-e053-d805fe0acbaa
|
37
|
|
Temperature-dependent dynamics of NH3-derived Cu species in the Cu-CHA SCR catalyst, file e27ce42f-14a2-2581-e053-d805fe0acbaa
|
37
|
|
Dynamic CuII/CuI speciation in Cu-CHA catalysts by in situ Diffuse Reflectance UV–vis-NIR spectroscopy, file e27ce42e-a226-2581-e053-d805fe0acbaa
|
36
|
|
Glutathione activation of an organometallic half-sandwich anticancer drug candidate by ligand attack, file e27ce42f-1143-2581-e053-d805fe0acbaa
|
35
|
|
Copper Pairing in the Mordenite Framework as a Function of the CuI/CuII Speciation, file e27ce434-49bd-2581-e053-d805fe0acbaa
|
34
|
|
Electronic and Geometrical Structure of Zn+Ions Stabilized in the Porous Structure of Zn-Loaded Zeolite H-ZSM-5: A Multifrequency CW and Pulse EPR Study, file e27ce42c-775b-2581-e053-d805fe0acbaa
|
32
|
|
Monitoring excited state dynamics in cis-[Ru(bpy)2(py)2]2+ by ultrafast synchrotron techniques, file e27ce426-f7c0-2581-e053-d805fe0acbaa
|
31
|
|
Influence of Cu-speciation in mordenite on direct methane to methanol conversion: Multi-Technique characterization and comparison with NH3 selective catalytic reduction of NOx, file e27ce434-4e54-2581-e053-d805fe0acbaa
|
31
|
|
Iron oxidation state variations in zoned micro-crystals measured using micro-XANES, file e27ce426-fde4-2581-e053-d805fe0acbaa
|
30
|
|
Identifying Cu-oxo species in Cu-zeolites by XAS: A theoretical survey by DFT-assisted XANES simulation and EXAFS wavelet transform, file e27ce431-08ae-2581-e053-d805fe0acbaa
|
29
|
|
The Cu-CHA deNOx Catalyst in Action: Temperature-Dependent NH3-Assisted Selective Catalytic Reduction Monitored by Operando XAS and XES, file e27ce42a-eab5-2581-e053-d805fe0acbaa
|
28
|
|
Effect of Molecular Guest Binding on the d-d Transitions of Ni(2+) of CPO-27-Ni: A Combined UV-Vis, Resonant-Valence-to-Core X-ray Emission Spectroscopy, and Theoretical Study, file e27ce42c-5455-2581-e053-d805fe0acbaa
|
28
|
|
Oxygen doping tuning in superconducting oxides by thermal annealing and hard X-ray irradiation, file e27ce42c-8146-2581-e053-d805fe0acbaa
|
27
|
|
On How Copper Mordenite Properties Govern the Framework Stability and Activity in the Methane-to-Methanol Conversion, file e27ce42f-165c-2581-e053-d805fe0acbaa
|
26
|
|
High Zn/Al ratios enhance dehydrogenation vs hydrogen transfer reactions of Zn-ZSM-5 catalytic systems in methanol conversion to aromatics, file e27ce433-1331-2581-e053-d805fe0acbaa
|
26
|
|
Evolution of active sites during selective oxidation of methane to methanol over Cu-CHA and Cu-MOR zeolites as monitored by operando XAS, file e27ce42e-c0cf-2581-e053-d805fe0acbaa
|
23
|
|
Reversible Capture and Release of Cl2and Br2with a Redox-Active Metal-Organic Framework, file e27ce42c-498c-2581-e053-d805fe0acbaa
|
22
|
|
Probing reactive platinum sites in uio-67 zirconium metal-organic frameworks, file e27ce427-d3cc-2581-e053-d805fe0acbaa
|
21
|
|
Advanced X-ray Absorption Spectroscopy Analysis to Determine Structure-Activity Relationships for Cu-Zeolites in the Direct Conversion of Methane to Methanol, file e27ce431-496a-2581-e053-d805fe0acbaa
|
20
|
|
Determining Cu–Speciation in the Cu–CHA Zeolite Catalyst: The Potential of Multivariate Curve Resolution Analysis of In Situ XAS Data, file e27ce42d-db7e-2581-e053-d805fe0acbaa
|
19
|
|
Assessing the Influence of Zeolite Composition on Oxygen-Bridged Diamino Dicopper(II) Complexes in Cu-CHA DeNOx Catalysts by Machine Learning-Assisted X-ray Absorption Spectroscopy, file 748cb12d-f362-42e8-9f8a-3ee3227422b4
|
18
|
|
The duality of UiO-67-Pt MOFs: connecting treatment conditions and encapsulated Pt species by operando XAS, file e27ce42c-aa76-2581-e053-d805fe0acbaa
|
18
|
|
Cu-CHA-a model system for applied selective redox catalysis, file e27ce42d-e426-2581-e053-d805fe0acbaa
|
18
|
|
Tuning Pt and Cu sites population inside functionalized UiO-67 MOF by controlling activation conditions, file e27ce42b-eaac-2581-e053-d805fe0acbaa
|
17
|
|
Structure and Reactivity of Oxygen-Bridged Diamino Dicopper(II) Complexes in Cu-Ion-Exchanged Chabazite Catalyst for NH3-Mediated Selective Catalytic Reduction, file e4f0daeb-d054-4147-846f-5dc3db1931e8
|
16
|
|
CO2 Hydrogenation over Pt-Containing UiO-67 Zr-MOFs - The Base Case, file e27ce42c-69d1-2581-e053-d805fe0acbaa
|
14
|
|
The impact of reaction conditions and material composition on the stepwise methane to methanol conversion over Cu-MOR: An operando XAS study, file e27ce42f-1157-2581-e053-d805fe0acbaa
|
14
|
|
Copper Pairing in the Mordenite Framework as a Function of the CuI/CuII Speciation, file e27ce434-49be-2581-e053-d805fe0acbaa
|
14
|
|
Evidence of Mixed-Ligand Complexes in Cu−CHA by Reaction of Cu Nitrates with NO/NH3 at Low Temperature, file e27ce42f-29d0-2581-e053-d805fe0acbaa
|
13
|
|
Improving the Catalytic Performance of Cobalt for CO Preferential Oxidation by Stabilizing the Active Phase through Vanadium Promotion, file e27ce434-9ff2-2581-e053-d805fe0acbaa
|
13
|
|
Influence of ion mobility on the redox and catalytic properties of Cu ions in zeolites, file 7ae1498c-2892-4f81-bb58-f77984a0bf23
|
12
|
|
Comparing the Nature of Active Sites in Cu-loaded SAPO-34 and SSZ-13 for the Direct Conversion of Methane to Methanol, file e27ce42f-437b-2581-e053-d805fe0acbaa
|
12
|
|
Local structure of Cu(I) ions in the MOR zeolite: A DFT-assisted XAS study, file e27ce430-eea3-2581-e053-d805fe0acbaa
|
11
|
|
Synthesis-Structure-Activity Relationship in Cu-MOR for Partial Methane Oxidation: Al Siting via Inorganic Structure-Directing Agents, file 8d8bb93d-cb27-43d3-b708-5488e9c7a121
|
10
|
|
In Situ Investigation of the Deactivation Mechanism in Ni-ZSM5 During Ethylene Oligomerization, file e27ce42c-6ea3-2581-e053-d805fe0acbaa
|
10
|
|
Effect of Molecular Guest Binding on the d-d Transitions of Ni(2+) of CPO-27-Ni: A Combined UV-Vis, Resonant-Valence-to-Core X-ray Emission Spectroscopy, and Theoretical Study, file e27ce42c-7f3f-2581-e053-d805fe0acbaa
|
10
|
|
RATIONAL DESIGN OF BIPYRIDINE-BASED LIGANDS: ROAD TOWARD COPPER CATALYSTS FOR C-H ACTIVATION REACTIONS, file 7a239c1e-7f8f-4bf4-8f13-7126011d3d4c
|
8
|
|
SO2 Poisoning of Cu-CHA deNO x Catalyst: The Most Vulnerable Cu Species Identified by X-ray Absorption Spectroscopy, file 7d84bbd9-d9d6-4126-b787-aca89694ccb3
|
8
|
|
From Lab to Technical CO2 Hydrogenation Catalysts: Understanding PdZn Decomposition, file cf160c59-6251-4753-91fc-e545e1d130a2
|
8
|
|
Monte Carlo analysis of the oxygen knock-on effects induced by synchrotron X-ray radiation in the Bi2Sr2CaCu2O8+δ superconductor, file e27ce42c-8a42-2581-e053-d805fe0acbaa
|
8
|
|
Molecular Niobium Precursors in Various Oxidation States: An XAS Case Study, file e27ce42d-e91e-2581-e053-d805fe0acbaa
|
8
|
|
Combining X-ray Diffraction and X-ray Absorption Spectroscopy to Unveil Zn Local Environment in Zn-Doped ZrO2Catalysts, file e27ce434-9f90-2581-e053-d805fe0acbaa
|
8
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|
The Pyridyl Functional Groups Guide the Formation of Pd Nanoparticles Inside A Porous Poly(4-Vinyl-Pyridine), file e27ce427-b0ea-2581-e053-d805fe0acbaa
|
7
|
|
Oxygen doping tuning in superconducting oxides by thermal annealing and hard X-ray irradiation, file e27ce42c-2201-2581-e053-d805fe0acbaa
|
5
|
|
DFT-assisted XANES simulations to discriminate different monomeric CuII species in CHA catalysts, file e27ce431-3079-2581-e053-d805fe0acbaa
|
5
|
|
Full Spectroscopic Characterization of the Molecular Oxygen-Based Methane to Methanol Conversion over Open Fe(II) Sites in a Metal–Organic Framework, file 23f2da60-708c-44a9-9290-0510302c34b5
|
4
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|
Elucidating the reaction mechanism of SO2 with Cu-CHA catalysts for NH3-SCR by X-ray absorption spectroscopy, file 782deebe-e27c-4f1e-99d2-426f91a979f9
|
4
|
| Totale |
9.481 |