Synthesis of 1,5-Diaminonaphthalene Via Electrochemical C,H-Amination of Naphthalene

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Metadata	Details
Publication Date	2016-04-01
Journal	ECS Meeting Abstracts
Authors	Sabine Möhle, Sebastian Herold, Frank Richter, Hartmut Nefzger, Siegfried R. Waldvogel
Institutions	Institute of Organic Chemistry, Covestro (Germany)

Abstract

Since their invention in 1937, polyurethanes (PUR) have found numerous applications in our daily life. [1] A key building block for high performance polyurethanes (Vulkollan®) is 1,5-naphthalene diisocyanate, made from 1,5-diamino naphthalene. The latter is currently made by a rather laborious multistep process. Therefore, a direct and sustainable access to 1,5-naphthalene diisocyanate or the precursor diamine would be of interest. In 2013 Yoshida et al. reported a promising process for the electrochemical C,H amination of electron-rich arenes. [2,3] Through anodic pyridination at a carbon felt anode (graphite) N -arylpyridinium ions are obtained. Aminolysis with piperidine yields the corresponding primary amines. Overoxidation and the introduction of a second amino moiety are suppressed because of the positive charge of the pyridinium intermediates. We successfully demonstrated the twofold, electrochemical C,H amination of naphthalene by employing boron-doped diamond anodes. This innovative electrode material shows a higher performance at more positive potentials. [4] The second amino functionality is, due to electrostatics, regioselectively introduced at position 5. Upon work-up 1,5-diaminonaphthalene and 1-aminonaphthalene are obtained. Currently, the reaction is optimized regarding e.g. current density and electrolyte. It is envisioned, that the positive charge of 1-pyridiniumnaphthalene can be effectively shielded through an appropriate choice of supporting electrolyte (-concentration). Thus, the second oxidation should be facilitated. Furthermore, the scope of the reaction is expanded to other polycyclic aromatic hydrocarbons, as well as other nitrogen-based nucleophiles. References: [1] a) O. Bayer, W. Siefken, H. Rinke, L. Orthner, H. Schild (IG Farben), DRP 728981, 1937 ; b) H.W. Engels, H. G. Pirkl, R. Albers, R. W. Albach, J. Krause, A. Hoffmann, H. Casselmann, J. Dormish, Angew. Chem. Int. Ed. 2013 ; 52 , 9422-9441, Angew . Chem . 2013 , 125 , 9596-9616. [2] T. Morofuji, A. Shimizu, J. I. Yoshida, J. Am. Chem. Soc . 2013 , 135 , 5000-5003 [3] S. R. Waldvogel, S. Möhle, Angew. Chem. Int. Ed. 2015 , 54 , 6398-6399; Angew . Chem . 2015 , 127 , 6496-6497. [4] B. Elsler, D. Schollmeyer, K. M. Dyballa, R. Franke, S. R. Waldvogel, Angew. Chem. Int. Ed . 2014 , 53 , 5210─5213; Angew. Chem. 2014 , 126 , 5311─5314. Figure 1

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DOI: https://doi.org/10.1149/ma2016-01/32/1603