-
268283-25GTesting Method Average particle size determined by Fisher sub-sieve sizer
-
357553-100CM2Nickel foil has been used as a substrate for the growth of several nanomaterials. A superhydrophobic surface of nanowire structure was grown on a nickel foil by solution immersion method.
-
357553-25CM2Nickel foil has been used as a substrate for the growth of several nanomaterials. A superhydrophobic surface of nanowire structure was grown on a nickel foil by solution immersion method.
-
357553-6.25CM2Nickel foil has been used as a substrate for the growth of several nanomaterials. A superhydrophobic surface of nanowire structure was grown on a nickel foil by solution immersion method.
-
357588-2.2GNickel foil has been used as a substrate for the growth of several nanomaterials. A superhydrophobic surface of nanowire structure was grown on a nickel foil by solution immersion method.
-
357588-8.8GNickel foil has been used as a substrate for the growth of several nanomaterials. A superhydrophobic surface of nanowire structure was grown on a nickel foil by solution immersion method.
-
357626-25MQuantity 5 m (approximately 8.5 g) 25 m (approximately 42.
-
357626-5MQuantity 5 m (approximately 8.5 g) 25 m (approximately 42.
-
357634-1EAApplication Nickel can be used as a catalyst in: Various reactions such as hydrogenation, oxidative addition, C−H activation, oxidative cyclization, cross-coupling reaction. Selective hydrogenolysis of the aromatic ethers.
-
577995-5GApplication Nickel nanopowder is a magnetic material, which has a variety of usages such as: catalytic applications hydrogen transfer reactions contrasting agent in biological systems
-
767484-1EAApplication Sputtering is a process whereby atoms are ejected from a solid target material due to bombardment of the target by energetic particles. The extreme miniaturization of components in the semiconductor and electronics industry requires
-
GF00192327-1EAFor updated SDS information please visit www.goodfellow.