Molecular-Level Understanding of Continuous Growth from Iron-Oxo Clusters to Iron Oxide Nanoparticles

化学 成核 羧酸盐 纳米颗粒 氧化铁纳米粒子 氧化物 结晶 氧化铁 金属 化学反应 无机化学 组合化学 化学工程 有机化学 工程类
作者
Hogeun Chang,Byung Hyo Kim,Hu Young Jeong,Jeong Hee Moon,Minwoo Park,Kwangsoo Shin,Sue In Chae,Jisoo Lee,Taegyu Kang,Back Kyu Choi,Jiwoong Yang,Megalamane S. Bootharaju,Hyoin Song,Seong Hee An,Kyung Man Park,Joo Yeon Oh,Hoonkyung Lee,Myoung Soo Kim,Jungwon Park,Taeghwan Hyeon
出处
期刊:Journal of the American Chemical Society [American Chemical Society]
卷期号:141 (17): 7037-7045 被引量:93
标识
DOI:10.1021/jacs.9b01670
摘要

The formation of inorganic nanoparticles has been understood based on the classical crystallization theory described by a burst of nucleation, where surface energy is known to play a critical role, and a diffusion-controlled growth process. However, this nucleation and growth model may not be universally applicable to the entire nanoparticle systems because different precursors and surface ligands are used during their synthesis. Their intrinsic chemical reactivity can lead to a formation pathway that deviates from a classical nucleation and growth model. The formation of metal oxide nanoparticles is one such case because of several distinct chemical aspects during their synthesis. Typical carboxylate surface ligands, which are often employed in the synthesis of oxide nanoparticles, tend to continuously remain on the surface of the nanoparticles throughout the growth process. They can also act as an oxygen source during the growth of metal oxide nanoparticles. Carboxylates are prone to chemical reactions with different chemical species in the synthesis such as alcohol or amine. Such reactions can frequently leave reactive hydroxyl groups on the surface. Herein, we track the entire growth process of iron oxide nanoparticles synthesized from conventional iron precursors, iron-oleate complexes, with strongly chelating carboxylate moieties. Mass spectrometry studies reveal that the iron-oleate precursor is a cluster comprising a tri-iron-oxo core and carboxylate ligands rather than a mononuclear complex. A combinatorial analysis shows that the entire growth, regulated by organic reactions of chelating ligands, is continuous without a discrete nucleation step.
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