Intense Femtosecond Laser-Mediated Electrical Discharge Enables Preparation of Amorphous Nickel Phosphide Nanoparticles

Abstract: Reported here is a high-efficiency preparation method of amorphous nickel phosphide (Ni-P) nanoparticles by intense femtosecond laser irradiation of nickel sulfate and sodium hypophosphite aqueous solution. The underlying mechanism of the laser-assisted preparation was discussed in terms of the breaking of chemical bond in reactants via highly intense electric field discharge generated by the intense femtosecond laser. The morphology and size of the nanoparticles can be tuned by varying the reaction parameters… Show more

“…2 in Fig. 1) [49]. With the further addition of Cu 2+ ions, the highly active Pd-[H] can induce the effective and simultaneous reduction of Cu 2+ and [PdCl4] 2-to form Pd100-xCux structure (Eq.…”

Palladium-copper nanodot as novel H2-evolution cocatalyst: Optimizing interfacial hydrogen desorption for highly efficient photocatalytic activity

“…2 in Fig. 1) [49]. With the further addition of Cu 2+ ions, the highly active Pd-[H] can induce the effective and simultaneous reduction of Cu 2+ and [PdCl4] 2-to form Pd100-xCux structure (Eq.…”

Palladium-copper nanodot as novel H2-evolution cocatalyst: Optimizing interfacial hydrogen desorption for highly efficient photocatalytic activity

“…FSLs feature the merit of a short duration and operate in a manner of ultrafast pulses [ 12 , 13 , 14 ]. FSLs are thousands of times faster than the pulse produced via other electronic methods, which is usually in the range of tens of to hundreds of femtoseconds [ 15 ]. With a very high instantaneous power, FSLs can be focused in a very small space volume [ 16 ].…”

Femtosecond Laser-Assisted Ophthalmic Surgery: From Laser Fundamentals to Clinical Applications

Thermal decomposition of ammonium perchlorate over perovskite catalysts: Catalytic decomposition behavior, mechanism and application