A series of ultafine Ni−P, Ni−B, and Ni−P−B amorphous alloy catalysts with various atomic
ratios were prepared by a chemical reduction method. The catalysts were characterized with
respect to elemental analysis, nitrogen sorption, XRD, TEM, XPS, and hydrogenation activity.
Conventional Raney nickel was included for comparison. The Ni/P/B molar ratio in the starting
material significantly affected the concentration of boron and phosphorus bonded to the nickel
metal, subsequently affecting the surface area, the amorphous structure, and the hydrogenation
activity and selectivity of the catalyst. The different electron transfer between nickel metal and
the metalloid elements in Ni−P and Ni−B powders (phosphorus draws electrons and boron
donates electrons) results in the extremely different hydrogenation activity of furfural (specific
activity per surface area: Ni85.0P15.0 ≫ Ni71.4B28.9). By regulating a suitable P/B ratio, the ultrafine
Ni−P−B catalyst dramatically revealed a markedly higher hydrogenation activity of furfural
than Ni−P and Ni−B. The specific activities per surface area of the catalyst are in the order
Ni74.5P12.1B13.4 > Ni72.5P2.0B25.5 > Ni85.0P15.0 ≫ Ni71.4B28.9 > Raney nickel. The phosphorus is an
active component to improve the selectivity of furfuryl alcohol. The hydrogenation of furfural is
catalyzed actively by the Ni−P
x
−B
y
catalysts, following the first order with respect to the
concentration of furfural. The nature of the ultrafine amorphous structure and the P/B ratio
are the keys to manipulate the catalytic properties of Ni−P
x
−B
y
amorphous alloy catalysts.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.