Searched for: subject%3A%22covalent%255C+triazine%255C+framework%22
(1 - 3 of 3)
Corral-Pérez, Juan José (author), Billings, Amelia (author), Stoian, Dragos (author), Urakawa, A. (author)
Continuous synthesis of formic acid and methyl formate via CO<sub>2</sub> hydrogenation is demonstrated using a molecular iridium complex stably immobilized on a solid covalent triazine framework (CTF) under high-pressure conditions. Compared to formic acid synthesis, methyl formate synthesis is advantageous to enhance the selectivity and...
journal article 2019
Bavykina, A.V. (author), Olivos Suarez, A.I. (author), Osadchii, D. (author), Valecha, R.R. (author), Franz, R.P.M. (author), Makkee, M. (author), Kapteijn, F. (author), Gascon, Jorge (author)
A quasi chemical vapor deposition method for the manufacture of well-defined covalent triazine framework (CTF) coatings on cordierite monoliths is reported. The resulting supported porous organic polymer is an excellent support for the immobilization of two different homogeneous catalysts: (1) an Ir<sup>III</sup>Cp∗-based catalyst for the...
journal article 2017
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