High-Energy-Low-Temperature Technologies for the Synthesis of Nanoparticles: Microwaves and High Pressure

W. Lojkowski, C. Leonelli, T. Chudoba, J. Wojnarowicz, A. Majcher, A. Mazurkiewicz
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引用次数: 25

Abstract

Microwave Solvothermal Synthesis (MSS) is a chemical technology, where apart from possible effects of microwaves on the chemical reaction paths, microwave heating allows the precise planning of a time-temperature schedule, as well as to achieve high super-saturation of the reagents uniformly in the reactor vessel. Thus, MSS is suitable for production of nanoparticles with small grain size distribution and a high degree of crystallinity. A further advantage of the technology is a much lower synthesis temperature than for gas phase, plasma or sol-gel technologies. New reactors have been developed to exploit these advantages of the MSS technology of nanoparticles synthesis and to scale up the production rate. Reactor design and realization has been shown to be decisive and critical for the control of the MSS technology. Examples of oxidic and phosphatic nanoparticles synthesis have been reported.
高能低温纳米颗粒合成技术:微波和高压
微波溶剂热合成(MSS)是一种化学技术,除了微波对化学反应路径的可能影响外,微波加热允许精确规划时间-温度时间表,以及在反应器容器中均匀地实现试剂的高过饱和。因此,MSS适用于制备晶粒尺寸分布小、结晶度高的纳米颗粒。该技术的另一个优点是合成温度比气相、等离子体或溶胶-凝胶技术低得多。为了充分利用纳米颗粒合成技术的这些优点,并扩大生产速度,人们开发了新的反应器。反应器的设计和实现对MSS技术的控制具有决定性和关键性的作用。氧化和磷酸纳米粒子的合成实例已被报道。
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