基于吡啶的液相合成法制备结晶TiN和ZnSiN纳米颗粒
Pyridine-based Liquid-Phase Synthesis of Crystalline TiN and ZnSiN Nanoparticles.
作者信息
Egeberg Alexander, Wenzel Olivia, Popescu Radian, Gerthsen Dagmar, Feldmann Claus
机构信息
Institut für Anorganische Chemie, Karlsruhe Institute of Technology (KIT), Engesserstrasse 15, 76131, Karlsruhe, Germany.
Laboratorium für Elektronenmikroskopie, Karlsruhe Institute of Technology (KIT), Engesserstrasse 7, 76131, Karlsruhe, Germany.
出版信息
ChemistryOpen. 2021 Mar;10(3):334-339. doi: 10.1002/open.202000315. Epub 2020 Dec 28.
TiN and ZnSiN nanoparticles are obtained via a novel pyridine-based synthesis route. This one-pot liquid-phase route strictly avoids all oxygen sources (including starting materials, surface functionalization, solvents), which is highly relevant in regard of the material purity and material properties. Colloidally stable suspensions of crystalline, small-sized TiN (5.4±0.4 nm) and ZnSiN (5.2±1.1 nm) are instantaneously available from the liquid phase. Elemental analysis and electron energy loss spectroscopy confirm the purity of the compounds and specifically the absence of oxygen. The as-prepared ZnSiN show yellowish emission (500-700 nm) already at room temperature with its maximum at 570 nm.
通过一种新型的基于吡啶的合成路线获得了氮化钛(TiN)和氮化锌硅(ZnSiN)纳米颗粒。这种一锅法液相路线严格避免了所有氧源(包括起始材料、表面功能化、溶剂),这对于材料纯度和材料性能而言至关重要。从液相中可即时获得结晶的、小尺寸的TiN(5.4±0.4 nm)和ZnSiN(5.2±1.1 nm)的胶体稳定悬浮液。元素分析和电子能量损失谱证实了化合物的纯度,特别是氧的不存在。所制备的ZnSiN在室温下已经显示出黄ish发射(500 - 700 nm),其最大值在570 nm处。
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