Traditionally, electrochemically mediated atom transfer radical polymerization (eATRP) is performed with Pt electrodes, but extensive use of such an expensive, rare, and non-functionalizable metal may pose some limitations to the method, owing mainly to the high cost of the experimental setup and the limited natural resources of platinum. As a further development of eATRP, polymerization of n-butyl acrylate in dimethylformamide was investigated employing different cathodic materials: glassy carbon, gold, iron, nickel-chromium, and stainless steel. With all these electrodes, eATRP was fast (conversion >85% in 2 h) and well-controlled (dispersity <1.2) under a wide range of experimental setups. To show the robustness of eATRP with inexpensive non-noble electrodes (i) the catalyst loading was reduced to less than 75 ppm, (ii) the same cathode was reused several times without reactivation, and (iii) undivided cells with all non-platinum electrodes were used. Lastly, all electrodes were stable and did not significantly release metal ions in solution, merely acting as an electron sink for the reduction of the catalyst.

Electrochemically mediated atom transfer radical polymerization of: N -butyl acrylate on non-platinum cathodes

LORANDI, FRANCESCA;FANTIN, MARCO;AHMED ISSE, ABDIRISAK;GENNARO, ARMANDO
2016

Abstract

Traditionally, electrochemically mediated atom transfer radical polymerization (eATRP) is performed with Pt electrodes, but extensive use of such an expensive, rare, and non-functionalizable metal may pose some limitations to the method, owing mainly to the high cost of the experimental setup and the limited natural resources of platinum. As a further development of eATRP, polymerization of n-butyl acrylate in dimethylformamide was investigated employing different cathodic materials: glassy carbon, gold, iron, nickel-chromium, and stainless steel. With all these electrodes, eATRP was fast (conversion >85% in 2 h) and well-controlled (dispersity <1.2) under a wide range of experimental setups. To show the robustness of eATRP with inexpensive non-noble electrodes (i) the catalyst loading was reduced to less than 75 ppm, (ii) the same cathode was reused several times without reactivation, and (iii) undivided cells with all non-platinum electrodes were used. Lastly, all electrodes were stable and did not significantly release metal ions in solution, merely acting as an electron sink for the reduction of the catalyst.
2016
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11577/3197574
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