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ACS Catalysis, 2155-5435

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  1. Monoamine Oxidase (MAO-N) Biocatalyzed Synthesis of Indoles from Indolines Prepared via Photocatalytic Cyclization/Arylative Dearomatization

    Zhao, F., Masci, D., Ferla, S., Varricchio, C., Brancale, A., Colonna, S., Black, G. W., Turner, N. J. & Castagnolo, D., 5 Jun 2020, In : ACS Catalysis. 10, 11, p. 6414-6421 8 p.

    Research output: Contribution to journalArticle

  2. Structural Screening and Design of Platinum Nanosamples for Oxygen Reduction

    Rossi, K., Asara, G. & Baletto, F., 24 Feb 2020, In : ACS Catalysis. 10, 6, p. 3911-3920 10 p.

    Research output: Contribution to journalArticle

  3. Host-Guest Chemistry Meets Electrocatalysis: Cucurbit[6]uril on a Au Surface as a Hybrid System in CO2 Reduction

    Wagner, A., Ly, K. H., Heidary, N., Szabó, I., Földes, T., Assaf, K. I., Barrow, S. J., Sokołowski, K., Al-Hada, M., Kornienko, N., Kuehnel, M. F., Rosta, E., Zebger, I., Nau, W. M., Scherman, O. A. & Reisner, E., 3 Jan 2020, In : ACS Catalysis. 10, 1, p. 751-761 11 p.

    Research output: Contribution to journalArticle

  4. Monoamine Oxidase (MAO-N) Whole Cell Biocatalyzed Aromatization of 1,2,5,6-Tetrahydropyridines into Pyridines

    Toscani, A., Risi, C., Black, G. W., Brown, N. L., Shaaban, A., Turner, N. J. & Castagnolo, D., 7 Sep 2018, In : ACS Catalysis. 8, 9, p. 8781-8787 7 p.

    Research output: Contribution to journalArticle

  5. Unveiling the Biocatalytic Aromatizing Activity of Monoamine Oxidases MAO-N and 6-HDNO: Development of Chemoenzymatic Cascades for the Synthesis of Pyrroles

    Castagnolo, D., Scalacci, N., Black, G., Mattedi, G., Brown, N. & Turner, N., 27 Dec 2016, In : ACS Catalysis.

    Research output: Contribution to journalArticle

  6. Mutations Decouple Proton Transfer from Phosphate Cleavage in the dUTPase Catalytic Reaction

    Lopata, A., Jambrina, P. G., Sharma, P. K., Brooks, B. R., Toth, J., Vertessy, B. G. & Rosta, E., 2015, In : ACS Catalysis. 5, p. 3225-3237 13 p.

    Research output: Contribution to journalArticle

  7. Unraveling How Enzymes Can Use Bulky Residues To Drive Site-Selective C–H Activation: The Case of Mammalian Lipoxygenases Catalyzing Arachidonic Acid Oxidation

    Saura, P., Suardíaz, R., Masgrau, L., Lluch, J. M. & González-Lafont, À., 5 Dec 2014, In : ACS Catalysis. 4, 12, p. 4351–4363 13 p.

    Research output: Contribution to journalArticle

  8. Mechanism and Catalytic Diversity of Rieske Non-Heme Iron-Dependent Oxygenases

    Barry, S. M. & Challis, G. L., 4 Oct 2013, In : ACS Catalysis. 3, 10, p. 2362-2370 9 p., N/A.

    Research output: Contribution to journalArticle

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