Fabrication of magnetic nickel–tungsten–phosphorus particles by electroless deposition

“…The Curie temperature and saturation magnetization of pure bulk nickel are 627 K and 54.5 emu/ g. , In contrast, tungsten and phosphorus are paramagnetic and diamagnetic, respectively. The existence of the phosphorus in the obtained nickel alloys could greatly change the magnetic properties of the alloys, for example, from ferromagnetics to weak paramagnetics . Consequently, it is pivotal to control the phosphorus content in the electroless nickel alloys, should the magnetic nickel alloys be desired.…”

“…In general, trace amounts of stabilizers, such as Pb 2+ , Sn 2+ , or tungstate anions, must be added in the ENP baths to prevent the baths from collapse. However, stabilizers in the plating baths are often reduced along with nickel ions and affect the phosphorous contents in the resulting electroless nickel alloys, which may alter the magnetic properties of these electroless nickel deposits …”

“…The onset of the ENP process began right after the silica or gold templates were submerged into the plating baths at the desired temperatures (Table ). It is of note that the formula of the one noted with the lower-magnetism (LM) bath has been reported earlier . Consequently, the electroless NiWP nanoparticles or films were fabricated on these substrates, of which NiWP nanoparticles and film are denoted as NiWP/silica, NiWP/Au, and NiWP film, respectively, according to the substrates used.…”

“…Electroless Deposition of NiWP Particles and Film. Preparations of silica and gold templates as well as the deposition method of NiWP alloys onto these substrates were reported earlier . For the sake of keeping this report as concise as possible, the experimental methodology is briefly described as follows.…”

“…The electroless nickel−phosphorus (NiP) deposits, especially in amorphous form, have been known for their excellent properties of anticorrosion, wear and thermal resistance, and hardness . Namely, magnetic particles made by such electroless nickel plating (ENP) processes may not require any protective coatings to prevent themselves from degradation and attacks by environmental factors during applications. , …”

Characteristics of Magnetic Mesoparticles Fabricated by Electroless Nickel Deposition

“…The Curie temperature and saturation magnetization of pure bulk nickel are 627 K and 54.5 emu/ g. , In contrast, tungsten and phosphorus are paramagnetic and diamagnetic, respectively. The existence of the phosphorus in the obtained nickel alloys could greatly change the magnetic properties of the alloys, for example, from ferromagnetics to weak paramagnetics . Consequently, it is pivotal to control the phosphorus content in the electroless nickel alloys, should the magnetic nickel alloys be desired.…”

“…In general, trace amounts of stabilizers, such as Pb 2+ , Sn 2+ , or tungstate anions, must be added in the ENP baths to prevent the baths from collapse. However, stabilizers in the plating baths are often reduced along with nickel ions and affect the phosphorous contents in the resulting electroless nickel alloys, which may alter the magnetic properties of these electroless nickel deposits …”

“…The onset of the ENP process began right after the silica or gold templates were submerged into the plating baths at the desired temperatures (Table ). It is of note that the formula of the one noted with the lower-magnetism (LM) bath has been reported earlier . Consequently, the electroless NiWP nanoparticles or films were fabricated on these substrates, of which NiWP nanoparticles and film are denoted as NiWP/silica, NiWP/Au, and NiWP film, respectively, according to the substrates used.…”

“…Electroless Deposition of NiWP Particles and Film. Preparations of silica and gold templates as well as the deposition method of NiWP alloys onto these substrates were reported earlier . For the sake of keeping this report as concise as possible, the experimental methodology is briefly described as follows.…”

“…The electroless nickel−phosphorus (NiP) deposits, especially in amorphous form, have been known for their excellent properties of anticorrosion, wear and thermal resistance, and hardness . Namely, magnetic particles made by such electroless nickel plating (ENP) processes may not require any protective coatings to prevent themselves from degradation and attacks by environmental factors during applications. , …”

Characteristics of Magnetic Mesoparticles Fabricated by Electroless Nickel Deposition

Preparation and magnetic properties of Ni–P–La coating by electroless plating on silicon substrate

Magnetic properties of CoWP film by electroless deposition