Abstract
We have deposited thin copper coatings on micro-sized natural pollen particles by electroless plating, using palladium as the catalyst, copper sulfate as the source of deposited metal, and formaldehyde as the reducing agent. A two-step pretreatment process is used to activate the pollen surface with stannous chloride and palladium chloride. The results of XRD, SEM, AES, and cross-section metallography show that the pollen particles are completely coated by a pure and porous FCC-structured crystalline copper film about 1 μm thick. The film is composed of spherical and some needle-shaped metallic copper particles. The latter are attributed to the strong aggregation tendency among neighboring nano-sized copper particles grown with rapid hydrogen release. We find that lightweighted pollen particles are good candidates for fabricating metallic composite microspheres with core-shell structures.
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