Efficient electroless nickel plating from highly active Ni–B nanoparticles for electric circuit patterns on Al2O3 ceramics

Abstract: Herein, we report novel and highly-active Ni-B nanoparticles as a precursor for electroless nickel deposition and demonstrate their implementation as high-performance electric circuits on the CCPCB surface.

“…homogeneity, high hardness, wearability and corrosion resistance), the electroless nickel (EN) plating technique has been widely applied in automotive, aerospace, plastic, machinery, packaging and electronic computer industries. 1,2 Specically, in the fastest-growing electronics industries, the EN plating technique enables the metalizing of plastic or glass parts surface to decorate or improve functionality, which is closely related to our daily necessities, for instance cell phone' shells. For the electroless nickel plating technique, the chemical reaction can be expressed as:…”

Simultaneous removal of nickel and phosphorus from spent electroless nickel plating wastewater via calcined Mg–Al–CO₃ hydroxides

“…homogeneity, high hardness, wearability and corrosion resistance), the electroless nickel (EN) plating technique has been widely applied in automotive, aerospace, plastic, machinery, packaging and electronic computer industries. 1,2 Specically, in the fastest-growing electronics industries, the EN plating technique enables the metalizing of plastic or glass parts surface to decorate or improve functionality, which is closely related to our daily necessities, for instance cell phone' shells. For the electroless nickel plating technique, the chemical reaction can be expressed as:…”

Simultaneous removal of nickel and phosphorus from spent electroless nickel plating wastewater via calcined Mg–Al–CO₃ hydroxides

Improving bonding strength between Ni/Cu/Ag coatings and MgTiO3 ceramic resonator by alumina thin-film grown by atomic layer deposition

Highly thermally conductive, superior flexible and surface metallisable boron nitride paper fabricated by a facile and scalable approach