188 results on '"Beyer, Martin K."'
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2. Master equation modeling of blackbody infrared radiative dissociation (BIRD) of hydrated peroxycarbonate radical anions
3. Iron Complexes as Potential Carriers of Diffuse Interstellar Bands: The Photodissociation Spectrum of Fe+(H2O) at Optical Wavelengths
4. Frontispiece: Thermally Activated vs. Photochemical Hydrogen Evolution Reactions–A Tale of Three Metals
5. Carbon Dioxide and Water Activation by Niobium Trioxide Anions in the Gas Phase
6. Thermally Activated vs. Photochemical Hydrogen Evolution Reactions–A Tale of Three Metals
7. Surface or Internal Hydration – Does It Really Matter?
8. Spectroscopy of Cluster Aerosol Models: IR and UV Spectra of Hydrated Glyoxylate with and without Sea Salt
9. Energy release and product ion fragmentation in proton transfer reactions of N2H+ and ArH+ with acetone*
10. Simplified Multiple-Well Approach for the Master Equation Modeling of Blackbody Infrared Radiative Dissociation of Hydrated Carbonate Radical Anions
11. Decomposition of Halogenated Molybdenum Sulfide Dianions [Mo3S7X6]2– (X = Cl, Br, I)
12. Toward Detection of FeH+ in the Interstellar Medium: Infrared Multiple Photon Dissociation Spectroscopy of Ar2FeH+
13. Infrared Multiple Photon Dissociation Spectroscopy Confirms Reversible Water Activation in Mn+(H2O)n, n ≤ 8
14. Front Cover: Formation of Temporary Negative Ions and Their Subsequent Fragmentation upon Electron Attachment to CoQ0 and CoQ0H2 (ChemPhysChem 5/2022)
15. Formation of Temporary Negative Ions and Their Subsequent Fragmentation upon Electron Attachment to CoQ0 and CoQ0H2
16. Formation of Temporary Negative Ions and Their Subsequent Fragmentation upon Electron Attachment to CoQ0 and CoQ0H2
17. Rearrangement and decomposition pathways of bare and hydrogenated molybdenum oxysulfides in the gas phase
18. Size-Dependent H and H2 Formation by Infrared Multiple Photon Dissociation Spectroscopy of Hydrated Vanadium Cations, V+(H2O)n, n = 3–51
19. Cover Feature: Photochemical Hydrogen Evolution at Metal Centers Probed with Hydrated Aluminium Cations, Al+(H2O)n, n=1–10 (Chem. Eur. J. 66/2021)
20. Photochemical Hydrogen Evolution at Metal Centers Probed with Hydrated Aluminium Cations, Al+(H2O)n, n=1–10
21. Frontispiz: Auf zur Wasserstoffentwicklung: Das Infrarot‐Spektrum von hydratisiertem Aluminiumhydrid‐Hydroxid HAlOH+(H2O)n−1, n=9–14
22. Frontispiece: Getting Ready for the Hydrogen Evolution Reaction: The Infrared Spectrum of Hydrated Aluminum Hydride–Hydroxide HAlOH+(H2O)n−1, n=9–14
23. Auf zur Wasserstoffentwicklung: Das Infrarot‐Spektrum von hydratisiertem Aluminiumhydrid‐Hydroxid HAlOH+(H2O)n−1, n=9–14
24. Getting Ready for the Hydrogen Evolution Reaction: The Infrared Spectrum of Hydrated Aluminum Hydride–Hydroxide HAlOH+(H2O)n−1, n=9–14
25. Asymmetric Solvation of the Zinc Dimer Cation Revealed by Infrared Multiple Photon Dissociation Spectroscopy of Zn2+(H2O)n (n = 1–20)
26. Functionalization of Diamond‐Like Carbon Surfaces to Access High Rupture Forces in Single‐Molecule Force Spectroscopy of Covalent Bonds
27. Proton transfer reactivity of molybdenum oxysulfide dianions [Mo2O2S6]2– and [Mo2O2S5]2–: The role of Coulomb barriers
28. Cover Feature: Activation of a Copper Biscarbene Mechano‐Catalyst Using Single‐Molecule Force Spectroscopy Supported by Quantum Chemical Calculations (Chem. Eur. J. 34/2021)
29. Activation of a Copper Biscarbene Mechano‐Catalyst Using Single‐Molecule Force Spectroscopy Supported by Quantum Chemical Calculations
30. Infrared spectroscopy of CO3•−(H2O)1,2 and CO4•−(H2O)1,2
31. [Mo 3 S 13 ] 2− als Modellsystem für die katalytische Wasserstoffentwicklung durch MoS x : Untersuchung der Protonierungsstellen in der Gasphase durch Infrarot‐Mehrphotonendissoziationsspektroskopie
32. [Mo3S13]2− as a Model System for Hydrogen Evolution Catalysis by MoSx: Probing Protonation Sites in the Gas Phase by Infrared Multiple Photon Dissociation Spectroscopy
33. Spectroscopy and photochemistry of copper nitrate clusters
34. Microsolvation of Zn cations: infrared multiple photon dissociation spectroscopy of Zn+(H2O)n (n = 2–35)
35. Photochemistry and UV/vis spectroscopy of hydrated vanadium cations, V+(H2O)n, n = 1–41, a model system for photochemical hydrogen evolution
36. Infrared multiple photon dissociation spectroscopy of anionic copper formate clusters
37. Photochemical activation of carbon dioxide in Mg+(CO2)(H2O)0,1
38. UV/Vis Spectroscopy of Copper Formate Clusters: Insight into Metal‐Ligand Photochemistry
39. Chemistry of NO x and HNO 3 Molecules with Gas‐Phase Hydrated O .− and OH − Ions
40. Aktivierung von Kohlenstoffdioxid an Metallzentren: Entwicklung des Ladungstransfers von Mg .+ auf CO2 in [MgCO2(H2O)n].+, n=0–8
41. Carbon Dioxide Activation at Metal Centers: Evolution of Charge Transfer from Mg .+ to CO 2 in [MgCO 2 (H 2 O)n] .+ , n= 0–8
42. Infrared Multiple Photon Dissociation Spectroscopy of Hydrated Cobalt Anions Doped with Carbon Dioxide CoCO 2 (H 2 O) n − , n =1–10, in the C−O Stretch Region
43. Evidence for lactone formation during infrared multiple photon dissociation spectroscopy of bromoalkanoate doped salt clusters
44. Decomposition of Copper Formate Clusters: Insight into Elementary Steps of Calcination and Carbon Dioxide Activation
45. Probing the Structural Evolution of the Hydrated Electron in Water Cluster Anions (H2O)n–, n ≤ 200, by Electronic Absorption Spectroscopy
46. Structural Properties of Gas-Phase Molybdenum Oxide Clusters [Mo4O13]2−, [HMo4O13]−, and [CH3Mo4O13]− Studied by Collision-Induced Dissociation
47. Infrared Spectroscopy of Size‐Selected Hydrated Carbon Dioxide Radical Anions CO 2 .− (H 2 O)n( n =2–61) in the C−O Stretch Region
48. Mechanical Activation Drastically Accelerates Amide Bond Hydrolysis, Matching Enzyme Activity
49. Mechanische Aktivierung beschleunigt die Hydrolyse der Amidbindung drastisch, vergleichbar der Aktivität von Enzymen
50. Release of Formic Acid from Copper Formate: Hydride, Proton‐Coupled Electron and Hydrogen Atom Transfer All Play their Role
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