In this work, the infiltration of TiN powders by electrophoretic deposition (EPD) in aqueous media was considered as alternative method to reduce the size craters and the roughness of commercial porous Ti substrates. Ti substrates can be used as suitable supports for the deposition of dense hydrogen separation TiNx-based membranes by physical vapor deposition (PVD) techniques. The influence of various EPD deposition parameters on surface morphology and roughness of TiN-infiltrated substrates were investigated in order to optimize their surface properties. The results suggest that a multi-step EPD procedure is an effective technique for reducing substrate surface defects of commercial porous Ti substrates which could then be successfully used as proper supports for the deposition of dense and defect-free TiNx layers, also aligning the thermal mismatch between the active layer and the porous substrate.
Surface Optimization of Commercial Porous Ti Substrates by EPD of Titanium Nitride / Mortalò, Cecilia; Cannio, Maria; Zin, Valentina; Miorin, Enrico; Montagner, Francesco; Pasquali, Luca; Montecchi, Monica; Boccaccini, Dino Norberto; Fabrizio, Monica; Deambrosis, Silvia Maria. - In: MEMBRANES. - ISSN 2077-0375. - 12:5(2022), pp. 1-18. [10.3390/membranes12050531]
Surface Optimization of Commercial Porous Ti Substrates by EPD of Titanium Nitride
Cannio, Maria;Pasquali, Luca;Montecchi, Monica;Boccaccini, Dino Norberto;
2022
Abstract
In this work, the infiltration of TiN powders by electrophoretic deposition (EPD) in aqueous media was considered as alternative method to reduce the size craters and the roughness of commercial porous Ti substrates. Ti substrates can be used as suitable supports for the deposition of dense hydrogen separation TiNx-based membranes by physical vapor deposition (PVD) techniques. The influence of various EPD deposition parameters on surface morphology and roughness of TiN-infiltrated substrates were investigated in order to optimize their surface properties. The results suggest that a multi-step EPD procedure is an effective technique for reducing substrate surface defects of commercial porous Ti substrates which could then be successfully used as proper supports for the deposition of dense and defect-free TiNx layers, also aligning the thermal mismatch between the active layer and the porous substrate.
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