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Sun, X. (author), Olivos Suarez, A.I. (author), Oar-Arteta Gonzalez, L. (author), Rozhko, E. (author), Osadchii, D. (author), Bavykina, A.V. (author), Kapteijn, F. (author), Gascon, Jorge (author)A Co@N-doped carbon (Co@ NC) hybrid was synthesized by thermal decomposition of the metal–organic framework (MOF) ZIF-67 under N2 atmosphere. These hybrid materials exhibit outstanding catalytic activity and chemoselectivity for the conversion of a wide range of substituted nitroarenes to their corresponding anilines under relatively mild...journal article 2017
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Rozhko, E. (author), Bavykina, A.V. (author), Osadchii, D. (author), Makkee, M. (author), Gascon, Jorge (author)The use of two different classes of covalent organic frameworks (covalent triazine and imine linked frameworks) as supports for molecular Ni<sup>2+</sup> catalysts is presented. For COFs, a large concentration of N heteroatoms, either in the form of quasi bipyridine or as diiminopyridine moieties, allows for the coordination of NiBr<sub>2<...journal article 2017
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Bavykina, A.V. (author), Rozhko, E. (author), Goesten, M.G. (author), Wezendonk, T.A. (author), Seoane, Beatriz (author), Kapteijn, F. (author), Makkee, M. (author), Gascon, Jorge (author)A facile one-step method to shape covalent triazine frameworks (CTFs) for catalytic applications is reported. Phase inversion of the CTF powder by using a polyimide as a binder in a microfluidic device results in the formation of composite spheres with accessible CTF porosity and a high mechanical and thermal stability. The fabricated spheres...journal article 2016