C.C. Wu scite author profile

CrWN coatings were fabricated through a hybrid high-power impulse magnetron sputtering/radio-frequency magnetron sputtering technique. The phase structures, mechanical properties, and tribological characteristics of CrWN coatings prepared with various nitrogen flow ratios (fN2s) were investigated. The results indicated that the CrWN coatings prepared at fN2 levels of 0.1 and 0.2 exhibited a Cr2N phase, whereas the coatings prepared at fN2 levels of 0.3 and 0.4 exhibited a CrN phase. These CrWN coatings exhibited hardness values of 16.7–20.2 GPa and Young’s modulus levels of 268–296 GPa, which indicated higher mechanical properties than those of coatings with similar residual stresses prepared through conventional direct current magnetron sputtering. Face-centered cubic (fcc) Cr51W2N47 coatings with a residual stress of −0.53 GPa exhibited the highest wear and scratch resistance. Furthermore, the diffusion barrier performance of fcc CrWN films on Cu metallization was explored, and they exhibited excellent barrier characteristics up to 650 °C.

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Effects of layer thickness on the performance of micro-tubular solid oxide fuel cells made by sequential aqueous electrophoretic deposition

Fang

Yeh

et al. 2015

International Journal of Hydrogen Energy

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Microstructure and performance of micro-tubular solid oxide fuel cells made by aqueous electrophoretic deposition

Cherng

Chen

et al. 2013

Ceramics International

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C.C. Wu

Anode morphology and performance of micro-tubular solid oxide fuel cells made by aqueous electrophoretic deposition

Mechanical Properties and Diffusion Barrier Performance of CrWN Coatings Fabricated through Hybrid HiPIMS/RFMS

Effects of layer thickness on the performance of micro-tubular solid oxide fuel cells made by sequential aqueous electrophoretic deposition

Microstructure and performance of micro-tubular solid oxide fuel cells made by aqueous electrophoretic deposition

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