Silica-nanoparticle reinforced lubricant-infused copper substrates with enhanced lubricant retention for maintenance-free heat exchangers

“…This surface exhibited excellent long-term corrosion resistance, with SLIPSs demonstrating a higher corrosion resistance (4.1 × 10 6 Ω cm −2 ) compared to the fatty acid-modified Ni–TiO 2 surface (1.9 × 10 5 Ω cm −2 ). Ryu et al 204 initially prepared nano-rod-like Cu(OH) 2 via alkaline chemical etching to establish a microstructure and conditions for lubricant storage (Fig. 18).…”

Anti-corrosion properties of bio-inspired surfaces: a systematic review of recent research developments

“…This surface exhibited excellent long-term corrosion resistance, with SLIPSs demonstrating a higher corrosion resistance (4.1 × 10 6 Ω cm −2 ) compared to the fatty acid-modified Ni–TiO 2 surface (1.9 × 10 5 Ω cm −2 ). Ryu et al 204 initially prepared nano-rod-like Cu(OH) 2 via alkaline chemical etching to establish a microstructure and conditions for lubricant storage (Fig. 18).…”

Anti-corrosion properties of bio-inspired surfaces: a systematic review of recent research developments

Thermohydraulic performance of a helical heat exchanger: an experimental study on the synergistic effects of novel combined nano-SiO2 and anionic PAM in aqueous solutions and correlation establishment

A mechanically durable slippery liquid-infused porous surface based on distinctive ‘jaboticaba-like’ TiO2/sepiolite nanocomposites with superior hot water repellency and anti-corrosion for protecting various substrates