RESUMEN
Pulsed cathodic arc-plasma deposition was employed to create a few nanometre-thick Pt overlayer on a 50 µm-thick Fe-Cr-Al metal (SUS) foil, resulting in an effective NH3 oxidation catalyst fabrication. This catalyst exhibited a turnover frequency (TOF) exceeding 100 times that of Pt nanoparticles. In this study, Pt overlayer catalysts with varying degrees of surface roughness were fabricated using different metal foil substrates: mirror-polished (Pt/p-SUS), unpolished (Pt/SUS) and roughened by the formation of a surface oxide layer (Pt/Al2O3/SUS). The nanoscale roughness was comprehensively analysed using electron microscopy, laser scanning confocal microscopy and chemisorption techniques. NH3 oxidation activity, measured at 200 °C, followed an increasing trend in the order of Pt/Al2O3/SUS < Pt/SUS < Pt/p-SUS, despite a decrease in the apparent Pt surface area in the same order. Consequently, the calculated TOF was markedly higher for Pt/p-SUS (267 min-1) compared to Pt/SUS (107 min-1) and Pt/Al2O3/SUS (≤22 min-1). The smooth Pt overlayer surface also favoured N2 yield over N2O at this temperature. This discovery enhances our fundamental understanding of high-TOF NH3 oxidation over Pt overlayer catalysts, which holds significance for the advancement and industrial implementation of selective NH3 oxidation processes.
RESUMEN
BACKGROUND: Recently decellularized nerves with various methods are reported as highly functional nerve grafts for the treatment of nerve defects. OBJECTIVE: To evaluate the efficacy of decellularized allogeneic nerve, compared with oriented chitosan mesh tube, and an autologous nerve. METHODS: Sciatic nerves harvested from Sprague-Dawley (SD) rats were decellularized in combination with Sodium dodecyl sulfate and Triton X-100. A graft into the sciatic nerve in Wistar rats was performed with the decellularized SD rat sciatic nerves or oriented chitosan nonwoven nanofiber mesh tubes (15 mm in length, N=5 in each group). A portion of sciatic nerve of Wistar rat was cut, reversed and re-sutured in-situ as a control. Nerve functional and histological evaluations were performed 25 weeks postoperatively. RESULTS: It was revealed that functional, electrophysiological and histological recoveries in the decellularized nerve group match those in the autograft group. Recovery of sensory function and nerve maturation in the decellularized nerve group were superior to those in the chitosan mesh tube group. CONCLUSIONS: Nerve regeneration in the decellularized nerves could match that in the autografts and is somehow superior to artificial chitosan mesh tube. Detergents wash of SDS and Triton X-100 could obtain highly functional nerve grafts from allografts.