All Stories

  1. Bimetallic Molecular Catalyst Design for Carbon Dioxide Reduction
  2. Unlocking full and fast conversion in photocatalytic carbon dioxide reduction for applications in radio-carbonylation
  3. Identification of a Ubiquinone–Ubiquinol Quinhydrone Complex in Bacterial Photosynthetic Membranes and Isolated Reaction Centers by Time-Resolved Infrared Spectroscopy
  4. Back Cover: Bio‐Inspired Bimetallic Cooperativity Through a Hydrogen Bonding Spacer in CO2 Reduction (Angew. Chem. Int. Ed. 8/2023)
  5. Rücktitelbild: Bio‐Inspired Bimetallic Cooperativity Through a Hydrogen Bonding Spacer in CO2 Reduction (Angew. Chem. 8/2023)
  6. Bio‐Inspired Bimetallic Cooperativity Through a Hydrogen Bonding Spacer in CO2 Reduction
  7. Bio‐Inspired Bimetallic Cooperativity Through a Hydrogen Bonding Spacer in CO2 Reduction
  8. Titelbild: Dissection of Light‐Induced Charge Accumulation at a Highly Active Iron Porphyrin: Insights in the Photocatalytic CO2 Reduction (Angew. Chem. 14/2022)
  9. Dissection of Light‐Induced Charge Accumulation at a Highly Active Iron Porphyrin: Insights in the Photocatalytic CO2 Reduction
  10. Innenrücktitelbild: Phthalocyanine as a Bioinspired Model for Chlorophyll f‐Containing Photosystem II Drives Photosynthesis into the Far‐Red Region (Angew. Chem. 22/2021)
  11. Inside Back Cover: Phthalocyanine as a Bioinspired Model for Chlorophyll f‐Containing Photosystem II Drives Photosynthesis into the Far‐Red Region (Angew. Chem. Int. Ed. 22/2021)
  12. Phthalocyanine as a Bioinspired Model for Chlorophyll f‐Containing Photosystem II Drives Photosynthesis into the Far‐Red Region
  13. Phthalocyanine as a Bioinspired Model for Chlorophyll f‐Containing Photosystem II Drives Photosynthesis into the Far‐Red Region
  14. Tracking Charge Accumulation in a Functional Triazole‐Linked Ruthenium‐Rhenium Dyad Towards Photocatalytic Carbon Dioxide Reduction
  15. Cover Feature: Through‐Space Electrostatic Interactions Surpass Classical Through‐Bond Electronic Effects in Enhancing CO2 Reduction Performance of Iron Porphyrins (ChemSusChem 5/2021)
  16. Through‐Space Electrostatic Interactions Surpass Classical Through‐Bond Electronic Effects in Enhancing CO2 Reduction Performance of Iron Porphyrins
  17. Intercepting a transient non-hemic pyridine N-oxide Fe(iii) species involved in OAT reactions
  18. Second-sphere hydrogen-bonding enhances heterogeneous electrocatalytic CO2 to CO reduction by iron porphyrins in water
  19. Atropisomeric Hydrogen Bonding Control for CO2 Binding and Enhancement of Electrocatalytic Reduction at Iron Porphyrins
  20. Atropisomeric Hydrogen Bonding Control for CO2 Binding and Enhancement of Electrocatalytic Reduction at Iron Porphyrins
  21. Spectroscopic Characterisation of a Bio‐Inspired Ni‐Based Proton Reduction Catalyst Bearing a Pentadentate N 2 S 3 Ligand with Improved Photocatalytic Activity
  22. Spectroscopic Characterisation of a Bio‐Inspired Ni‐Based Proton Reduction Catalyst Bearing a Pentadentate N 2 S 3 Ligand with Improved Photocatalytic Activity
  23. Visible light-driven simultaneous water oxidation and quinone reduction by a nano-structured conjugated polymer without co-catalysts
  24. A Reversible Electron Relay to Exclude Sacrificial Electron Donors in the Photocatalytic Oxygen Atom Transfer Reaction with O 2 in Water
  25. A Reversible Electron Relay to Exclude Sacrificial Electron Donors in the Photocatalytic Oxygen Atom Transfer Reaction with O2 in Water
  26. Frontispiece: Second-Sphere Biomimetic Multipoint Hydrogen-Bonding Patterns to Boost CO2 Reduction of Iron Porphyrins
  27. Frontispiz: Second‐Sphere Biomimetic Multipoint Hydrogen‐Bonding Patterns to Boost CO 2 Reduction of Iron Porphyrins
  28. Second-Sphere Biomimetic Multipoint Hydrogen-Bonding Patterns to Boost CO2 Reduction of Iron Porphyrins
  29. Second-Sphere Biomimetic Multipoint Hydrogen-Bonding Patterns to Boost CO2 Reduction of Iron Porphyrins
  30. Cover Feature: Visible-Light-Driven Reduction of CO2 to CO and Its Subsequent Valorization in Carbonylation Chemistry and 13 C Isotope Labeling (ChemPhotoChem 8/2018)
  31. Water Molecules Gating a Photoinduced One-Electron Two-Protons Transfer in a Tyrosine/Histidine (Tyr/His) Model of Photosystem II
  32. Water Molecules Gating a Photoinduced One-Electron Two-Protons Transfer in a Tyrosine/Histidine (Tyr/His) Model of Photosystem II
  33. Visible-Light-Driven Reduction of CO2 to CO and Its Subsequent Valorization in Carbonylation Chemistry and 13 C Isotope Labeling
  34. Snapshots of Light Induced Accumulation of Two Charges on Methylviologen using a Sequential Nanosecond Pump–Pump Photoexcitation
  35. Photoinduced electron transfer in a molecular dyad by nanosecond pump–pump–probe spectroscopy
  36. Local ionic liquid environment at a modified iron porphyrin catalyst enhances the electrocatalytic performance of CO2 to CO reduction in water
  37. Light-Induced Activation of the Du Bois [RhII 2 (Esp)2 ] Catalyst for Nitrogen Atom Transfer Reactions
  38. Light-driven electron transfer in a modular assembly of a ruthenium(II) polypyridine sensitiser and a manganese(II) terpyridine unit separated by a redox active linkage. DFT analysis
  39. Monoanionic Dipyrrin-Pyridine Ligands: Synthesis, Structure and Photophysical Properties
  40. Dehydration affects the electronic structure of the primary electron donor in bacterial photosynthetic reaction centers: evidence from visible-NIR and light-induced difference FTIR spectroscopy
  41. Successive light-induced two electron transfers in a Ru–Fe supramolecular assembly: from Ru–Fe(ii)–OH2 to Ru–Fe(iv)–oxo
  42. Synergistic “ping-pong” energy transfer for efficient light activation in a chromophore–catalyst dyad
  43. Intramolecular photoinduced electron transfer in cobalt(II) chlathrochelate-zinc porphyrin assemblies leading to long-lived Co(I) species
  44. Photophysical properties in aqueous solutions of C60 embedded in 2:1 γ-cyclodextrin/[60]fullerene inclusion complexes
  45. Carbon dioxide reduction via light activation of a ruthenium–Ni(cyclam) complex
  46. The effect of myoglobin crowding on the dynamics of water: an infrared study
  47. Light-induced tryptophan radical generation in a click modular assembly of a sensitiser-tryptophan residue
  48. Identification of the Different Mechanisms of Activation of a [Ru II (tpy)(bpy)(OH 2 )] 2+ Catalyst by Modified Ruthenium Sensitizers in Supramolecular Complexes
  49. Photoassisted Generation of a Dinuclear Iron(III) Peroxo Species and Oxygen-Atom Transfer
  50. Click Chemistry as a Convenient Tool for the Incorporation of a Ruthenium Chromophore and a Nickel-Salen Monomer into a Visible-Light-Active Assembly
  51. Click Chemistry on a Ruthenium Polypyridine Complex. An Efficient and Versatile Synthetic Route for the Synthesis of Photoactive Modular Assemblies
  52. Light-Driven Activation of the [H2O(terpy)MnIII-μ-(O2)-MnIV(terpy)OH2] Unit in a Chromophore-Catalyst Complex
  53. Efficient electron transfer through a triazole link in ruthenium(ii) polypyridine type complexes
  54. Artificial photosynthetic systems. Using light and water to provide electrons and protons for the synthesis of a fuel
  55. Ubiquinol formation in isolated photosynthetic reaction centres monitored by time-resolved differential FTIR in combination with 2D correlation spectroscopy and multivariate curve resolution
  56. Intramolecular light induced activation of a Salen–MnIII complex by a ruthenium photosensitizer
  57. Proton and electron transfer in wild-type and mutant reaction centers from Rhodobacter sphaeroides followed by rapid-scan FTIR spectroscopy
  58. Artificial systems related to light driven electron transfer processes in PSII
  59. Cobaloxime‐Based Photocatalytic Devices for Hydrogen Production
  60. Influence of the Protonic State of an Imidazole-Containing Ligand on the Electrochemical and Photophysical Properties of a Ruthenium(II)–Polypyridine-Type Complex
  61. Electrochemical Study of a Reconstituted Photosynthetic Electron-Transfer Chain
  62. Monomeric Azaheterofullerene Derivatives RC59N: Influence of the R Moiety on Spectroscopic and Photophysical Properties
  63. A Theoretical Investigation into the Photophysical Properties of Ruthenium Polypyridine-Type Complexes
  64. Heteroditopic Ligand Accommodating a Fused Phenanthroline and a Schiff Base Cavity as Molecular Spacer in the Study of Electron and Energy Transfer
  65. Investigation of ubiquinol formation in isolated photosynthetic reaction centers by rapid-scan Fourier transform IR spectroscopy
  66. A Biomimetic Model of the Electron Transfer between P680 and the TyrZ-His190 Pair of PSII
  67. Electrocatalytic Investigation of Light-Induced Electron Transfer between Cytochrome c 6 and Photosystem I
  68. Photoreduction of the quinone pool in the bacterial photosynthetic membrane: identification of infrared marker bands for quinol formation
  69. Rapid-scan Fourier transform infrared spectroscopy shows coupling of GLu-L212 protonation and electron transfer to QB in Rhodobacter sphaeroides reaction centers
  70. Electron transfer in photosystem I
  71. Effect of Metal Binding on Electrogenic Proton Transfer Associated with Reduction of the Secondary Electron Acceptor (Q B ) in Rhodobacter sphaeroides Chromatophores †
  72. Fusion of chromatophores from photosynthetic bacteria with a supported lipid layer: characterization of the electric units
  73. FTIR Study of the Primary Electron Donor of Photosystem I (P700) Revealing Delocalization of the Charge in P700 + and Localization of the Triplet Character in 3 P700
  74. Transient electron paramagnetic resonance spectroscopy on green-sulfur bacteria and heliobacteria at two microwave frequencies
  75. Electron transfer in the heliobacterial reaction center: evidence against a quinone-type electron acceptor functioning analogous to A1 in photosystem I
  76. Electron Transfer in Photosystem I Reaction Centers Follows a Linear Pathway in Which Iron−Sulfur Cluster F B Is the Immediate Electron Donor to Soluble Ferredoxin †
  77. A systematic survey of conserved histidines in the core subunits of Photosystem I by site-directed mutagenesis reveals the likely axial ligands of P700
  78. Energy and Electron Transfer upon Selective Femtosecond Excitation of Pigments in Membranes of Heliobacillus mobilis
  79. Amplitude and Polarity of the Light Gradient Photovoltage from Chloroplasts
  80. Step-Scan FT-IR Spectroscopy of Electron Transfer in the Photosynthetic Bacterial Reaction Center
  81. Trapping kinetics, annihilation, and quantum yield in the photosynthetic purple bacterium Rps. viridis as revealed by electric measurement of the primary charge separation
  82. Relationship between the fraction of closed photosynthetic reaction centers and the amplitude of the photovoltage from light-gradient experiments
  83. Excitation trapping efficiency and kinetics in Rb. sphaeroides R26.1 whole cells probed by photovoltage measurements on the picosecond time-scale
  84. Competition between energy trapping and exciton annihilation in the lake model of the photosynthetic membrane of purple bacteria
  85. Photoelectric study on the kinetics of trapping and charge stabilization in oriented PS II membranes
  86. Reversed picosecond charge displacement from the photoproduct K of bacteriorhodopsin demonstrated photoelectrically
  87. Primary charge separation in photosystem II involves two electrogenic steps
  88. Theoretical and experimental study of trapping times and antenna organization in pea chloroplasts by means of the artificial fluorescence quencher m-dinitrobenzene
  89. Trapping and annihilation in the antenna system of Photosystem I
  90. Primary electrogenic reactions of Photosystem II as probed by the light-gradient method
  91. Spin-density distribution in the [FeO2]− complex. Electron spin resonance of myoglobin single crystals