在超临界二氧化碳沉积过程中通过前驱体变化调节 Pd/MWCNT 纳米粒子的催化特性

IF 3.4 3区 工程技术 Q2 CHEMISTRY, PHYSICAL
F. Ulusal , B. Güzel , E. Erünal
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引用次数: 0

摘要

一种实用、稳定和非常规的超临界二氧化碳沉积前驱体被用于制备钯/MWCNT 纳米粒子。双(2,2'联吡啶)氯化钯(II)前驱体的溶解度值与商用前驱体相似,而它的优点是可以在中等温度下还原。钯纳米粒子的粒径分布估计在 10.5 纳米左右,在 80 ºC 和 20.6 兆帕下沉积在多壁碳纳米管载体上。与在类似超临界条件下用不同前驱体制备的类似催化剂相比,该催化剂在所选模型的铃木-宫浦交叉偶联反应中表现出更高的性能。一般来说,温度和压力是调整该方法材料性能的主要参数。因此,本研究揭示了超临界沉积法中不同的前驱体如何影响目标应用的材料特性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Tuning catalytical properties of Pd/MWCNT nanoparticles via precursor variation in supercritical carbondioxide deposition

Tuning catalytical properties of Pd/MWCNT nanoparticles via precursor variation in supercritical carbondioxide deposition

A practical, stable and non-conventional supercritical carbon dioxide deposition precursor was used to prepare Pd/MWCNT nanoparticles. The bis(2,2’bipyridyl)palladium(II) chloride precursor has a similar solubility value to commercially used precursors while advantageously it can be reduced at moderate temperatures. Palladium nanoparticles, whose particle size distribution were estimated around 10.5 nm, was deposited on multi-walled carbon nanotube support at 80 ºC and under 20.6 MPa. The catalyst showed higher performance for the selected model Suzuki-Miyaura cross-coupling reaction when compared with a similar catalyst which was prepared under similar supercritical conditions but from a different precursor. In general temperature and pressure is the main parameters to tune material properties for this method. Hence, this study reveals how different precursors in supercritical deposition method may affect the material properties for the target applications.

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来源期刊
Journal of Supercritical Fluids
Journal of Supercritical Fluids 工程技术-工程:化工
CiteScore
7.60
自引率
10.30%
发文量
236
审稿时长
56 days
期刊介绍: The Journal of Supercritical Fluids is an international journal devoted to the fundamental and applied aspects of supercritical fluids and processes. Its aim is to provide a focused platform for academic and industrial researchers to report their findings and to have ready access to the advances in this rapidly growing field. Its coverage is multidisciplinary and includes both basic and applied topics. Thermodynamics and phase equilibria, reaction kinetics and rate processes, thermal and transport properties, and all topics related to processing such as separations (extraction, fractionation, purification, chromatography) nucleation and impregnation are within the scope. Accounts of specific engineering applications such as those encountered in food, fuel, natural products, minerals, pharmaceuticals and polymer industries are included. Topics related to high pressure equipment design, analytical techniques, sensors, and process control methodologies are also within the scope of the journal.
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