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This study addresses the preparation of uniform, adhesive and robust thin Cu-polyethylene films (PE-CuOx) by direct current magnetron sputtering (DCMS). Cu-coatings of 25 nm sputtered with 60W deposited 0.16% weight Cu/weight PE leading to the fastest bacterial inactivation under low intensity simulated sunlight irradiation equivalent to 20% AM1. These films were able to induce complete bacterial inactivation in the dark within 90 min and at a faster rate within 15 min under low intensity sunlight. Repetitive photo-induced bacterial inactivation was observed on the CuOx-PE. The Cu-released during the catalyst recycling in the ppb-range was determined by inductively coupled plasma mass spectrometry (ICP-MS) and showed the electrostatic interaction between bacteria and the CuOx-PE film. An increase in the applied light intensity accelerated the bacterial inactivation kinetics providing evidence for the semiconductor behavior of the CuOx film. By X-ray photoelectron spectroscopy (XPS), the binding energy (BE) of the Cu-species, were seen to shift after bacterial inactivation concomitantly with the variation in the atomic surface concentration percentage of Cu, O, C, N and S. Insight is provided for the reasons leading to the variation in the surface composition during the bacterial inactivation period. (C) 2016 Elsevier B.V. All rights reserved.
Christoph Bostedt, Andre Al Haddad, Thomas Roland Barillot
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