Jana Backenköhler scite author profile

In this work we present the successful application of functionalizing Pt nanoparticles (NPs) with hydrophilic organic ligands as a strategy for enhancing their catalytic activity and selectivity. In the first step, Pt NPs were prepared by a colloidal approach and subsequently functionalized in a separate synthesis step with L-proline (PRO). The functionalized NPs were supported onto Al2O3 and investigated as heterogeneous catalysts for the selective hydrogenation of acetophenone. Whereas significant amounts of side products are formed by supported, "unprotected" (ligand-free) NPs, the PRO-functionalized Pt NPs are highly chemoselective even at 100% conversion. Experiments under kinetically controlled conditions reveal that this high chemoselectivity is not accompanied by a loss of catalytic activity. In contrast, an enhanced rate toward the desired product was found for PRO-Pt in comparison to the "unprotected" Pt NPs. This finding demonstrates that the use of ligands in heterogeneous catalysis allows for simultaneous enhancements of activity and selectivity.

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A versatile synthetic strategy for nanoporous gold–organic hybrid materials for electrochemistry and photocatalysis

Wichmann

Schnurpfeil

Backenköhler

et al. 2014

Tetrahedron

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Ligand-functionalized Pt nanoparticles as asymmetric heterogeneous catalysts: molecular reaction control by ligand–reactant interactions

Šulce

Backenköhler

Schrader

et al. 2018

Catal. Sci. Technol.

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Total Synthesis of Damirone C, Makaluvamine O, Makaluvone, Batzelline C and Batzelline D

2017

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Dedicated to Professor Gerhard Spiteller on the occasion of his 85th birthday.The first total synthesis of makaluvamine O and batzelline D, pyrroloquinoline alkaloids isolated from marine sponges, are described. Key steps in the biomimetic synthesis are an intramolecular Michael addition leading to the pyrrolo[4,3,2-de]quinoline core and the following selective halogenation at C-6 position with NBS/NCS. Moreover, the related marine alkaloids damirone C, makaluvone and batzelline C were synthesised via this approach.

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Total Synthesis of Mycenarubin A, Sanguinolentaquinone and Mycenaflavin B and their Cytotoxic Activities

et al. 2018

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Here we report the first total synthesis of the fungal alkaloids mycenarubin A, sanguinolentaquinone and mycenaflavin B. The pyrroloquinoline alkaloid mycenarubin A was obtained in 10 steps (21 % total yield, 92 % ee) from the known key precursor 6,7‐bis(benzyloxy)indole by an asymmetric alkylation and a biomimetic ring closure as the key steps. The indolo‐6,7‐quinone sanguinolentaquinone was obtained in eight steps (28 % total yield). Mycenaflavin B was also obtained in eight steps starting from the same key precursor (total yield 15 %) by a biomimetic ring closure and an acid‐catalysed decarboxylation reaction as the key steps. The cytotoxic activities of mycenarubin A and mycenaflavin B were evaluated against mouse fibroblasts (L929) and human malignant melanoma cells (RPMI‐7951).

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Same ligand – Different binding: A way to control the binding of N-acetyl-cysteine (NAC) to Pt clusters

Kunz

Maturi

Schrader

et al. 2014

Journal of Colloid and Interface Science

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Formaldehyde as a Chemical Defence Agent of Fruiting Bodies of Mycena rosea and its Role in the Generation of the Alkaloid Mycenarubin C

et al. 2020

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Mycenarubin C, a previously unknown red pyrroloquinoline alkaloid, was isolated from fruiting bodies of the mushroom Mycena rosea and its structure was elucidated mainly by NMR spectroscopy and mass spectrometry. Unlike mycenarubin A, the major pyrroloquinoline alkaloid in fruiting bodies of M. rosea, mycenarubin C, contains an eight‐membered ring with an additional C1 unit that is hitherto unprecedented for pyrroloquinoline alkaloids known in nature. Incubation of mycenarubin A with an excess of formaldehyde revealed that mycenarubin C was generated nearly quantitatively from mycenarubin A. An investigation into the formaldehyde content of fresh fruiting bodies of M. rosea showed the presence of considerable amounts of formaldehyde, with values of 5 μg per gram of fresh weight in fresh fruiting bodies. Although mycenarubin C did not show bioactivity against selected bacteria and fungi, formaldehyde inhibits the growth of the mycoparasite Spinellus fusiger at concentrations present in fruiting bodies of M. rosea. Therefore, formaldehyde might play an ecological role in the chemical defence of M. rosea against S. fusiger. In turn, S. fusiger produces gallic acid—presumably to detoxify formaldehyde by reaction of this aldehyde with amino acids and gallic acid to Mannich adducts.

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Aminotenuazonic Acid: Isolation, Structure Elucidation, Total Synthesis and Herbicidal Activity of a New Tetramic Acid from Fruiting Bodies of Laccaria Species

Schrey

Backenköhler

Kogler³

et al. 2019

Chemistry A European J

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5S,6S)-Aminotenuazonic acid, an ew 3-acyltetramic acid, related to the well-known mycotoxin tenuazonic acid has been isolated from fruiting bodies of Laccaria bicolor. Its structure was mostly established by analysiso fi ts 2D NMR and HR-(+ +)-ESI-MS spectra.Atotal synthesis starting from N-Boc-l-isoleucine gave (5S,6S)-aminotenuazonic acid in 8% yield over nine steps (67 % de). The key steps of the total synthesis are al ight-initiated Hofmann-Lçffler-Freytag radical chain reactiona nd aD ieckmann cyclisation.T he rela-tive and absolute configurations of the naturalp roduct were determined by comparison of its NMR and CD spectra with those of the corresponding enantiopure syntheticc ompounds. Metabolic profiling of crude extracts of different mushrooms showed that aminotenuazonic acid is present in all four of the investigated Laccaria species. Aminotenuazonic acid shows phytotoxic activities against the root and shoot growth of Lepidium sativum, Pinus sylvestris and Arabidopsis thaliana comparable to those of tenuazonic acid.

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