Bookshelf

Complete List of Publications

Discover the Science behind CataLight
Bookshelf
Foto: Gerd Altmann from Pixabay
2023
2022
  1. Merging of a Perylene Moiety Enables a Ru II Photosensitizer with Long‐Lived Excited States and the Efficient Production of Singlet Oxygen
    M.-A. Schmid, J. Brückmann, J. Bösking, D. Nauroozi, M. Karnahl, S. Rau, S. Tschierlei
    Chem. – A Eur. J. 2022, 28
    https://doi.org/10.1002/chem.202103609Externer Link
  2. Towards synthetic unimolecular [Fe2S2]-photocatalysts sensitized by perylene dyes
    G. Knorr, D. Costabel, A. Skabeev, C. Neumann, J. Brossette, S. Kupfer, A. Turchanin, W. Weigand, K. Peneva
    Dye. Pigment. 2022, 198, 109940.
    https://doi.org/10.1016/j.dyepig.2021.109940Externer Link
  3. A Highly Fluorescent Dinuclear Aluminium Complex with Near‐Unity Quantum Yield**
    F. L. Portwich, Y. Carstensen, A. Dasgupta, S. Kupfer, R. Wyrwa, H. Görls, C. Eggeling, B. Dietzek, S. Gräfe, M. Wächtler, R. Kretschmer
    Angew. Chemie Int. Ed. 2022
    https://doi.org/10.1002/anie.202117499Externer Link
  4. Transforming Escherichia coli Proteomembranes into Artificial Chloroplasts Using Molecular Photocatalysis
    A. K. Mengele, D. Weixler, S. Amthor, B. J. Eikmanns, G. M. Seibold, S. Rau
    Angew. Chemie Int. Ed. 2022
    https://doi.org/10.1002/anie.202114842Externer Link
  5. Unravelling the Mystery: Enlightenment of the Uncommon Electrochemistry of Naphthalene Monoimide [FeFe] Hydrogenase Mimics
    S. Benndorf, E. Hofmeister, M. Wächtler, H. Görls, P. Liebing, K. Peneva, S. Gräfe, S. Kupfer, B. Dietzek‐Ivanšić, W. Weigand
    Eur. J. Inorg. Chem. 2022
    https://doi.org/10.1002/ejic.202100959Externer Link
  6. Double hydrophilic copolymers – synthetic approaches, architectural variety, and current application fields
    A. Nabiyan, J. B. Max, F. H. Schacher
    Chem. Soc. Rev. 2022, 51, 995–1044.
    https://doi.org/10.1039/D1CS00086AExterner Link
  7. Multiple Wavelength Photopolymerization of Stable Poly(Catecholamines)‐DNA Origami Nanostructures**
    P. Winterwerber, C. J. Whitfield, D. Y. W. Ng, T. Weil
    Angew. Chemie Int. Ed. 2022, 61, e202111226.
    https://doi.org/10.1002/anie.202111226Externer Link
  8. Structural and Biochemical Changes in Pericardium upon Genipin Cross-Linking Investigated Using Nondestructive and Label-Free Imaging Techniques
    T. A. Shaik, E. Baria, X. Wang, F. Korinth, J. L. Lagarto, C. Höppener, F. S. Pavone, V. Deckert, J. Popp, R. Cicchi, C. Krafft
    Anal. Chem. 2022, 94, 1575–1584.
    https://doi.org/10.1021/acs.analchem.1c03348Externer Link
  9. A General Access Route to High‐Nuclearity, Metal‐Functionalized Molecular Vanadium Oxides
    S. Greiner, J. Hettig, A. Laws, K. Baumgärtner, J. Bustos, A. Pöppler, A. H. Clark, M. Nyman, C. Streb, M. Anjass
    Angew. Chemie Int. Ed. 2022
    https://doi.org/10.1002/anie.202114548Externer Link
  10. Sustainable packaging of quantum chemistry software with the Nix package manager
    M. Kowalewski, P. Seeber
    Int. J. Quantum Chem. 2022
    https://doi.org/10.1002/qua.26872Externer Link
  11. A photosensitizer–polyoxometalate dyad that enables the decoupling of light and dark reactions for delayed on-demand solar hydrogen production
    S. Amthor, S. Knoll, M. Heiland, L. Zedler, C. Li, D. Nauroozi, W. Tobaschus, A. K. Mengele, M. Anjass, U. S. Schubert, B. Dietzek-Ivanšić, S. Rau, C. Streb
    Nat. Chem. 2022
    https://doi.org/10.1038/s41557-021-00850-8Externer Link
  12. LabPi: A Digital Measuring Station for STEM Education 4.0
    M. Wejner, T. Wilke
    J. Chem. Educ. 2022, 99, 819–827.
    https://doi.org/10.1021/acs.jchemed.1c01139Externer Link
  13. Multimodal analysis of visible light-driven water oxidation catalysis in nanoporous block copolymer membranes
    J. Kund, J. Kruse, I. Trentin, C. Read, G. Neusser, A. Gruber, D. Blaimer, U. Rupp, C. Streb, K. Leopold, F. Schacher, C. Kranz
    Zenodo 2022
    https://zenodo.org/record/5722331#.YgDsKOqZNhMExterner Link
  14. Active repair of a dinuclear photocatalyst for visible-light-driven hydrogen production
    M. G. Pfeffer, C. Müller, E. T. E. Kastl, A. K. Mengele, B. Bagemihl, S. S. Fauth, J. Habermehl, L. Petermann, M. Wächtler, M. Schulz, et al.
    Nat. Chem. 2022
    https://doi.org/10.1038/s41557-021-00860-6Externer Link
  15. Activating a [FeFe] Hydrogenase Mimic for Hydrogen Evolution under Visible Light
    P. Buday, C. Kasahara, E. Hofmeister, D. Kowalczyk, M. K. Farh, S. Riediger, M. Schulz, M. Wächtler, S. Furukawa, M. Saito, D. Ziegenbalg, S. Gräfe, P. Bäuerle, S. Kupfer, B. Dietzek-Ivanšić, W. Weigand
    Angew. Chemie Int. Ed. 2022
    https://doi.org/10.1002/anie.202202079Externer Link
  16. Making photocatalysis comparable using a modular and characterized Open‐Source photoreactor
    D. Kowalczyk, P. Li, A. Abbas, J. Eichhorn, P. Buday, M. Heiland, A. Pannwitz, F. Schacher, W. Weigand, C. Streb, D. Ziegenbalg
    ChemPhotoChem 2022
    https://doi.org/10.1002/CPTC.202200044Externer Link
  17. Not that innocent – ammonium ions boost homogeneous light-driven hydrogen evolution
    M. Heiland, R. De, S. Rau, B. Dietzek, C. Streb
    Chem. Commun. 2022
    https://doi.org/10.1039/D2CC00339BExterner Link
  18. A Combined Spectroscopic and Theoretical Study on a Ruthenium Complex Featuring a π‐Extended dppz Ligand for Light‐Driven Accumulation of Multiple Reducing Equivalents
    C. Müller, A. Schwab, N. M. Randell, S. Kupfer, B. Dietzek‐Ivanšić, M. Chavarot‐Kerlidou
    Chem. – A Eur. J. 2022
    https://doi.org/10.1002/chem.202103882Externer Link
  19. Influence of the linker chemistry on the photoinduced charge‐transfer dynamics of heterodinuclear photocatalysts
    L. Zedler, C. Müller, P. Wintergerst, A. K. Mengele, S. Rau, B. Dietzek
    Chem. – A Eur. J. 2022
    https://doi.org/10.1002/chem.202200490Externer Link
  20. Boosting efficiency in light‐driven water splitting by dynamic irradiation through synchronizing reaction and transport processes
    M. Sender, F. L. Huber, M. C. G. Moersch, D. Kowalczyk, J. Hniopek, S. Klingler, M. Schmitt, S. Kaufhold, K. Siewerth, J. Popp, B. Mizaikoff, D. Ziegenbalg, S. Rau
    ChemSusChem 2022
    https://doi.org/10.1002/cssc.202200708Externer Link
  21. Monosubstitution of 1 H ‐Imidazo[4,5‐ f ][1,10]phenanthroline Ligands Yields Maximum Luminescence Quantum Yield in Ruthenium Polypyridyl Complexes
    M. Lämmle, B. Bagemihl, D. Nauroozi, L. Petermann, A. Pannwitz, S. Rau
    ChemPhotoChem 2022
    https://doi.org/10.1002/cptc.202200053Externer Link
  22. A Triad Photoanode for Visible Light‐Driven Water Oxidation via Immobilization of Molecular Polyoxometalate on Polymeric Carbon Nitride
    R. Gong, D. Mitoraj, D. Gao, M. Mundszinger, D. Sorsche, U. Kaiser, C. Streb, R. Beranek, S. Rau
    Adv. Sustain. Syst. 2022, 2100473.
    https://doi.org/10.1002/adsu.202100473Externer Link
  23. Outpacing conventional nicotinamide hydrogenation catalysis by a strongly communicating heterodinuclear photocatalyst
    L. Zedler, P. Wintergerst, A. K. Mengele, C. Müller, C. Li, B. Dietzek-Ivanšić, S. Rau
    Nat. Commun. 2022, 13, 2538.
    https://doi.org/10.1038/s41467-022-30147-4Externer Link
  24. Link to glow - iEDDA conjugation of a Ruthenium(II) tetrazine complex leading to dihydropyrazine and pyrazine complexes with improved 1O2 formation ability
    C. Müller, P. Wintergerst, S. S. Nair, N. Meitinger, S. Rau, B. Dietzek-Ivansic
    J. Photochem. Photobiol. 2022, 100130.
    https://doi.org/10.1016/j.jpap.2022.100130Externer Link
  25. Two‐Dimensional Photosensitizer Nanosheets via Low‐Energy Electron Beam Induced Cross‐Linking of Self‐Assembled Ru II Polypyridine Monolayers
    M. Küllmer, F. Herrmann‐Westendorf, P. Endres, S. Götz, H. Reza Rasouli, E. Najafidehaghani, C. Neumann, R. Gläßner, D. Kaiser, T. Weimann, A. Winter, U. S. Schubert, B. Dietzek‐Ivanšić, A. Turchanin
    Angew. Chemie Int. Ed. 2022
    https://doi.org/10.1002/anie.202204953Externer Link
  26. Ligand‐Induced Donor State Destabilisation – A New Route to Panchromatically Absorbing Cu(I) Complexes
    J. H. Tran, P. Traber, B. Seidler, H. Görls, S. Gräfe, M. Schulz
    Chem. – A Eur. J. 2022, 28
    https://doi.org/10.1002/chem.202200121Externer Link
  27. Comparative Evaluation of Light‐Driven Catalysis: A Framework for Standardized Reporting of Data**
    D. Ziegenbalg, A. Pannwitz, S. Rau, B. Dietzek‐Ivanšić, C. Streb
    Angew. Chemie Int. Ed. 2022
    https://doi.org/10.1002/anie.202114106Externer Link
  28. Pyrimidoquinazolinophenanthroline Opens Next Chapter in Design of
    Bridging Ligands for Artificial Photosynthesis
    J. Brückmann, C. Müller, T. Maisuradze, A. K. Mengele, D. Nauroozi, S.
    Fauth, A. Gruber, S. Gräfe, K. Leopold, S. Kupfer, B. Dietzek-Ivanšić,
    S. Rau
    Chem. Eur. J., 2022, e202200766
    https://www.doi.org/10.1002/chem.202200766Externer Link 
  29. Photocatalytic Reduction of Nicotinamide Co-factor by Perylene Sensitized RhIII Complexes
    J. Brückmann, C. Müller, I. Friedländer, A. K. Mengele, K. Peneva, B. Dietzek-Ivanšić, S. Rau
    Chem. Eur. J., 2022, e202201931
    https://www.doi.org/10.1002/chem.202201931Externer Link 
  30. Insights into the different mechanistic stages of light-induced hydrogen evolution of a 5,5’-bisphenanthroline linked RuPt complex
    M. Lämmle, T. D. Pilz, R. J. Kutta, M. Müßler, A. K. Mengele, H. Görls, F. W. Heinemann, S. Rau
    Dalton. Trans., 2022, 51, 15282-15291
    https://doi.org/10.1039/D2DT01727JExterner Link
  31. Efficient Access of Phenyl-Spaced 5,5′-Bridged Dinuclear Ruthenium Metal
    Complexes and the Effect of Dynamic Ligand Exchange on Catalysis
    M. Lämmle, S. Volk, M. Klinkerman, M. Müßler, A. K. Mengele, S. Rau
    Photochem, 2022, 2, 831-848
    https://doi.org/10.3390/photochem2040053Externer Link
  32. Molecular Metallocorrole–Nanorod Photocatalytic System for Sustainable Hydrogen Production
    K. Dong, T. A. Le, Y. Nakibli, A. Schleusener, M. Wächtler, L. Amirav
    ChemSusChem, 2022, 28, e202200804
    https://doi.org/10.1002/cssc.202200804Externer Link
  33. Assembly, Properties, and Application of Ordered Group II–VI and IV–VI Colloidal Semiconductor Nanoparticle Films
    M. Micheel, R. Baruah, K. Kumar, M. Wächtler
    Advanced Materials Interfaces, 2022, 9, 2201039
    https://doi.org/10.1002/admi.202201039Externer Link
  34. Covalent functionalization of CdSe quantum dot films with molecular [FeFe] hydrogenase mimics for light-driven hydrogen evolution
    S. Benndorf, A. Schleusener, R. Müller, M. Micheel, R. Baruah, J. Dellith, A. Undisz, A. Turchanin, K. Leopold, W. Weigang, M. Wächtler
    ChemRxiv, 2022
    10.26434/chemrxiv-2022-n5wb1Externer Link
  35. Nanoscale patterning of polymers on DNA origami
    N. Alleva, P. Winterwerber, C.J. Whitfield, D.Y.W. Ng, T. Weil
    Journal of Material Chemistry B, 2022, 37
    https://doi.org/10.1039/D2TB00812BExterner Link
  36. Compartmentalization Accelerates Photosensitized NADH to NAD(+) Conversion
    R. Nau, J. Bösking, A. Pannwitz
    ChemPhotoChem, 2022, 6, 11
    https://doi.org/10.1002/cptc.202200158Externer Link
  37. Photophysics of Anionic Bis(4H-imidazolato)Cu-I Complexes
    B. Seidler, J. Tran, J. Hniopek, P. Traber, H. Görls, S. Gräfe, M. Schmitt, J. Popp, M. Schulz, B. Dietzek-Ivansic
    Chemistry A European Journal, e202202697
    https://doi.org/10.1002/chem.202202697Externer Link
  38. A Remarkable Ring Opening Observed in the Reaction of Cyclopropyl Ferrocenyl Thioketone with Triiron Dodecacarbonyl Fe3(CO)12
    P. Buday, M. Celeda, H. Görls, G. Mlostri, W. Weigand
    European Journal of Inorganic Chemistry, 2022, e202200520
    https://doi.org/10.1002/ejic.202200520Externer Link
  39. Preparation of Ultrathin and Degradable Polymeric Films by Electropolymerization of 3-Amino-l-tyrosine
    T.M. D'Alvise, S. Sunder, R. Hasler, J. Moser, W. Knoll, C.V. Synatschke, S. Harvey, T. Weil'
    Macromolecular Rapid Communications, 2022, 2200332
    https://doi.org/10.1002/marc.202200332Externer Link
  40. Nanoscale surface modification via scanning electrochemical probe microscopy
    E. Oswald, K. Palanisamy, C. Kranz
    Current Opinion in Electrochemistry, 2022, 34, 100965
    https://doi.org/10.1016/j.coelec.2022.100965Externer Link
  41. Pd-Modified De-alloyed Au−Ni-Microelectrodes for In Situ and Operando Mapping of Hydrogen Evolution
    J. Kund, J. Romer, E. Oswald, A.-L. Gaus, M. Küllmer, A. Turchanin, M. von Delius, C. Kranz
    ChemElectroChem, 2022, 9, 6, e202200071
    https://doi.org/10.1002/celc.202200071Externer Link
  42. Synthesis and Characterization of Metallopolymer Networks Featuring Triple Shape-Memory Ability Based on Different Reversible Metal Complexes
    J. Meurer, T. Bätz, J. Hniopek, M. Jäger, S. Zechel, M. Schmitt, J. Popp, M. D. Hager, U.S. Schubert 
    Polymers, 2022, 14(9), 1833
    https://doi.org/10.3390/polym14091833Externer Link
  43. Computation of Förster Resonance Energy Transfer in Lipid Bilayer Membranes
    R. Jacobi, D. Hernandes-Castillo, N. Sinambela, J. Bösking, A. Pannwitz, L. Gonzales
    J. Phys. Chem. A, 2022, 126, 43, 8070-8081
    https://doi.org/10.1021/acs.jpca.2c04524Externer Link
  44. Synthesis of block copolymers containing 3-chloro-2-hydroxypropyl methacrylate by NMP - a versatile platform for functionalization
    J. Eichhorn, M. Klein, I. Romanenko, F.H. Schacher
    Polym. Chem., 2022,13, 4421-4435
    https://doi.org/10.1039/D2PY00611AExterner Link
  45. 3D-Printable Shape-Memory Polymers Based on Halogen Bond Interactions
    J. Meurer, R.H. Kampes, T. Batz, J. Hniopek, O. Muschke, J. Kimming, S. Zechel, M. Schmitt, J. Popp, M. Hager, U.S. Ulrich
    Advanced Functional Materials, 2022, 2207313
    https://doi.org/10.1002/adfm.202207313Externer Link
  46. Polyoxometalate-Soft Matter Composite Materials: Design Strategies, Applications, and Future Directions
    J.-H. Kruse, M. Langer, I. Romanenko, I. Trentin, D. Hernandez-Castillo, L. Gonzales, F.H. Schacher, C. Streb
    Advanced Functional Materials, 2022, 2208428
    https://doi.org/10.1002/adfm.202208428Externer Link
  47.  Molecular Metallocorrole-Nanorod Photocatalytic System for Sustainable Hydrogen Production
    K.T. Dong, T.-A. Le, Y. Nakibili, A. Schleusener, M. Wächtler, L. Amirav
    ChemSusChem, 15, 17, e202200804
    https://doi.org/10.1002/cssc.202200804Externer Link
  48. The Other Dimension-Tuning Hole Extraction via Nanorod Width
    T. Rosner, N.G. Pavlopoulos, H. Shoyhet, M. Micheel, M. Wächtler, N. Adir, L. Amirav
    Nanomaterials, 2022, 12(19), 3343
    https://doi.org/10.3390/nano12193343Externer Link
  49. Application of orthogonal metal-ligand interactions for the synthesis of interpenetrating metallopolymer networks featuring shape-memory and self-healing abilities
    J. Meurer, T. Bätz, J. Hniopek, C. Bernt, S. Zechel, M. Schmitt, J. Popp, M.D. Hager, U.S. Schubert
    J. Mater. Chem. A, 2022,10, 25106-25117
    https://doi.org/10.1039/D2TA06053AExterner Link
  50. Photoinduced electron transfer in triazole-bridged donor-acceptor dyads - A critical perspective
    C. Müller, S. Bold, M. Chavarot-Kerlidou, B. Dietzek-Ivanšić
    Coordination Chemistry Reviews, 2022, 472, 214764
    https://doi.org/10.1016/j.ccr.2022.214764Externer Link
  51. Bifacial Dye Membranes: Ultrathin and Free-Standing although not Being Covalently Bound
    M.L. Hopfer, J. Dellith, M. Seyring, M. Diegel, A. Dellith, S. Ghosh, M. Rettenmeyer, B. Dietzek-Ivanšić
    Advanced Materials, 2022, 2204874
    https://doi.org/10.1002/adma.202204874Externer Link
  52. Molecular Iron Oxide Clusters Boost the Oxygen Reduction Reaction of Platinum Electrocatalysts at Near-Neutral pH
    J.-Q. Lü, Z.-L. Lang, J.-Q. Fu, Q. Lan, R. Liu, H.-Y. Zang, X.-G. Li, D.D. Ye, C. Streb
    Angewandte Chemie International Edition, 2022, 61, 38, e202202650
    https://doi.org/10.1002/anie.202202650Externer Link
  53. Structural Evolution of Au Electrodes during Cathodic Corrosion: Initial Stages of Octahedral-Nanocrystal Growth
    M.M. Elnagar, L.A. Kibler, T. Jacob 
    J. Electrochem. Soc. 169 102509
    https://doi.org/10.1149/1945-7111/ac9930Externer Link
  54. Infrared Spectroscopy-Quo Vadis?
    M. Hlavatsch, J. Haas, R. Stach, V. Kokoric, A. Teuber, M. Dinc, B. Mizaikoff
    Applied Sciences. 2022; 12(15):759
    https://doi.org/10.3390/app12157598Externer Link
  55. Photocatalytic Reduction of Nicotinamide Co-factor by Perylene Sensitized Rh(III )Complexes
    J. Bruckmann, C. Müller, I. Friedlander, A.K. Mengele, K. Peneva, B. Dietzek-Ivanšić, S. Rau
    Chem. Eur. J. 2022, 28, e202201931
    https://doi.org/10.1002/chem.202201931Externer Link
  56. Benzaldehyde-Promoted (Auto)Photocatalysis under Visible Light: Pitfalls and Opportunities in Photocatalytic H2O2 Production
    I. Krivtsov, A. Vazirani, D. Mitoraj, R. Beranek
    ChemCatChem.2022, Accepted Author Manuscript
    https://doi.org/10.1002/cctc.202201215Externer Link
  57. Nano Schottky?
    L. Amirav, M. Wächlter
    Nano Lett. 2022, 22, 24, 9783–9785
    https://doi.org/10.1021/acs.nanolett.2c04150Externer Link
2021
  1. 1,7,9,10‐Tetrasubstituted PMIs Accessible through Decarboxylative Bromination: Synthesis, Characterization, Photophysical Studies, and Hydrogen Evolution Catalysis
    D. Costabel, A. Skabeev, A. Nabiyan, Y. Luo, J. B. Max, A. Rajagopal, D. Kowalczyk, B. Dietzek, M. Wächtler, H. Görls, D. Ziegenbalg, Y. Zagranyarski, C. Streb, F. H. Schacher, K. Peneva
    Chem. – A Eur. J. 2021, 27, 4081–4088.
    https://doi.org/10.1002/chem.202004326Externer Link
  2. Photodriven Charge Accumulation and Carrier Dynamics in a Water‐Soluble Carbon Nitride Photocatalyst
    C. Li, E. Hofmeister, I. Krivtsov, D. Mitoraj, C. Adler, R. Beranek, B. Dietzek
    ChemSusChem 2021, 14, 1728–1736.
    https://doi.org/10.1002/cssc.202002921Externer Link
  3. Photocathodes beyond NiO: charge transfer dynamics in a π-conjugated polymer functionalized with Ru photosensitizers
    R. A. Wahyuono, B. Seidler, S. Bold, A. Dellith, J. Dellith, J. Ahner, P. Wintergerst, G. Lowe, M. D. Hager, M. Wächtler, C. Streb, U. S. Schubert, S. Rau, B. Dietzek
    Sci. Rep. 2021, 11, 2787.
    https://doi.org/10.1038/s41598-021-82395-xExterner Link
  4. Characterizing photocatalysts for water splitting: from atoms to bulk and from slow to ultrafast processes
    C. Kranz, M. Wächtler
    Chem. Soc. Rev. 2021, 50, 1407–1437.
    https://doi.org/10.1039/D0CS00526FExterner Link
  5. pH-Dependent Structure of Block Copolymer Micelles Featuring a Polyampholyte Corona: A Combined Experimental and Theoretical Approach
    J. Eichhorn, Y. D. Gordievskaya, E. Y. Kramarenko, A. R. Khokhlov, F. H. Schacher
    Macromolecules 2021, 54, 1976–1991.
    https://doi.org/10.1021/acs.macromol.0c02344Externer Link
  6. Photochlorination of toluene – the thin line between intensification and selectivity. Part 1: intensification and effect of operation conditions
    Ü. Taştan, D. Ziegenbalg
    React. Chem. Eng. 2021, 6, 82–89.
    https://doi.org/10.1039/D0RE00263AExterner Link
  7. Photochlorination of toluene – the thin line between intensification and selectivity. Part 2: selectivity
    Ü. Taştan, P. Seeber, S. Kupfer, D. Ziegenbalg
    React. Chem. Eng. 2021, 6, 90–99.
    https://doi.org/10.1039/D0RE00366BExterner Link
  8. An affordable option to Au single crystals through cathodic corrosion of a wire: Fabrication, electrochemical behavior, and applications in electrocatalysis and spectroscopy
    M. M. Elnagar, J. M. Hermann, T. Jacob, L. A. Kibler
    Electrochim. Acta 2021, 372, 137867.
    https://doi.org/10.1016/j.electacta.2021.137867Externer Link
  9. Shape‐Memory Metallopolymers Based on Two Orthogonal Metal–Ligand Interactions
    J. Meurer, J. Hniopek, T. Bätz, S. Zechel, M. Enke, J. Vitz, M. Schmitt, J. Popp, M. D. Hager, U. S. Schubert
    Adv. Mater. 2021, 33, 2006655.
    https://doi.org/10.1002/adma.202006655Externer Link
  10. Sol−Gel Processing of Water‐Soluble Carbon Nitride Enables High‐Performance Photoanodes
    C. Adler, I. Krivtsov, D. Mitoraj, L. Santos‐Gómez, S. García‐Granda, C. Neumann, J. Kund, C. Kranz, B. Mizaikoff, A. Turchanin, R. Beranek
    ChemSusChem 2021, 14, 2170–2179.
    https://doi.org/10.1002/cssc.202100313Externer Link
  11. Supramolecular Approaches for Taming the Chemo- and Regiochemistry of C60 Addition Reactions
    S. B. Beil, M. von Delius
    Org. Mater. 2021, 03, 146–154.
    https://doi.org/10.1055/s-0041-1727182Externer Link
  12. Polyampholytic Graft Copolymers as Matrix for TiO2/Eosin Y/[Mo3S13]2− Hybrid Materials and Light‐Driven Catalysis
    A. Nabiyan, J. B. Max, C. Neumann, M. Heiland, A. Turchanin, C. Streb, F. H. Schacher
    Chem. – A Eur. J. 2021, 27, 16924–16929.
    https://doi.org/10.1002/chem.202100091Externer Link
  13. Kinetic-Model-Free Analysis of Transient Absorption Spectra Enabled by 2D Correlation Analysis
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    https://doi.org/10.3390/molecules24244446Externer Link
2018
  1. Understanding homogeneous hydrogen evolution reactivity and deactivation pathways of molecular molybdenum sulfide catalysts
    M. Dave, A. Rajagopal, M. Damm-Ruttensperger, B. Schwarz, F. Nägele, L. Daccache, D. Fantauzzi, T. Jacob, C. Streb
    Sustain. Energy Fuels 2018, 2, 1020–1026
    https://doi.org/10.1039/C7SE00599GExterner Link
  2. Toward a Tunable Synthetic [FeFe]-Hydrogenase H-Cluster Mimic Mediated by Perylene Monoimide Model Complexes: Insight into Molecular Structures and Electrochemical Characteristics
    H. Abul-Futouh, A. Skabeev, D. Botteri, Y. Zagranyarski, H. Görls, W. Weigand, K. Peneva
    Organometallics 2018, 37, 3278–3285.
    https://doi.org/10.1021/acs.organomet.8b00450Externer Link
  3. Multi-phase real-time monitoring of oxygen evolution enables in operando water oxidation catalysis studies
    F. L. Huber, S. Amthor, B. Schwarz, B. Mizaikoff, C. Streb, S. Rau
    Sustain. Energy Fuels 2018, 2, 1974–1978.
    https://doi.org/10.1039/C8SE00328AExterner Link
  4. Photochemical and electrochemical hydrogen evolution reactivity of lanthanide-functionalized polyoxotungstates
    M. Arab Fashapoyeh, M. Mirzaei, H. Eshtiagh-Hosseini, A. Rajagopal, M. Lechner, R. Liu, C. Streb
    Chem. Commun. 2018, 54, 10427–10430.
    https://doi.org/10.1039/C8CC06334FExterner Link
  5. Facile synthesis of ultrasmall polydopamine-polyethylene glycol nanoparticles for cellular delivery
    S. Harvey, D. Y. W. Ng, J. Szelwicka, L. Hueske, L. Veith, M. Raabe, I. Lieberwirth, G. Fytas, K. Wunderlich, T. Weil
    Biointerphases 2018, 13, 06D407.
    https://doi.org/10.1116/1.5042640Externer Link
  6. Hydrogen evolution catalysis by molybdenum sulfides (MoS x ): are thiomolybdate clusters like [Mo 3 S 13 ] 2− suitable active site models?
    M.-L. Grutza, A. Rajagopal, C. Streb, P. Kurz
    Sustain. Energy Fuels 2018, 2, 1893–1904.
    https://doi.org/10.1039/C8SE00155CExterner Link
  7. Manganese Vanadium Oxide–N-Doped Reduced Graphene Oxide Composites as Oxygen Reduction and Oxygen Evolution Electrocatalysts
    X. Xing, R. Liu, K. Cao, U. Kaiser, G. Zhang, C. Streb
    ACS Appl. Mater. Interfaces 2018, 10, 44511–44517.
    https://doi.org/10.1021/acsami.8b16578Externer Link