金属间化合物
纳米晶材料
纳米颗粒
纳米晶
油胺
材料科学
表面等离子共振
形态学(生物学)
化学工程
化学
纳米技术
冶金
合金
遗传学
生物
工程类
作者
Zachary L. Schaefer,Dimitri D. Vaughn,Raymond E. Schaak
标识
DOI:10.1016/j.jallcom.2009.10.137
摘要
Au–Zn was used as a prototype binary system for exploring intermetallic phase accessibility in nanoparticle systems using low-temperature solution chemistry methods. By reacting Au nanoparticles with diethylzinc (Et2Zn) in oleylamine at temperatures of 250–300 °C, nanoparticles of five distinct binary intermetallic compounds were accessible: Au3Zn, Au5Zn3, AuZn, Cu5Zn8-type γ-(Au,Zn), and Mg-type ɛ-(Au,Zn). A variety of nanoparticle shapes, including spheres, triangles, hexagons, and rods, are accessible in the Au–Zn system via a pseudomorphic reaction of Au nanocrystal shapes with Et2Zn. The Au–Zn nanoparticles have optical properties that vary with Zn content, ranging from a surface plasmon resonance peak at ∼495 nm for Au3Zn to absorption in the ultraviolet region for the Zn-rich phases.
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