简介概要

Rare earth metal doped CeO2-based catalytic materials for diesel soot oxidation at lower temperatures

来源期刊:Journal of Rare Earths2015年第11期

论文作者:A.Rangaswamy Putla Sudarsanam Benjaram M.Reddy

文章页码:1162 - 1169

摘    要:In this work, the influence of trivalent rare-earth dopants(Sm and La) on the structure-activity properties of CeO2 was thoroughly studied for diesel soot oxidation. For this, an optimized 40% of Sm and La was incorporated into the CeO2 using a facile coprecipitation method from ultra-high dilute aqueous solutions. A systematic physicochemical characterization was carried out using X-ray diffraction(XRD), transmission electron microscopy(TEM), Brumauer-Emmett-teller method(BET) surface area, X-ray photoelectron spectroscopy(XPS), Raman, and H2-temperature programmed reduction(TPR) techniques. The soot oxidation efficiency of the catalysts was investigated using a thermogravimetric method. The XRD results suggested the formation of nanocrystalline single phase CeO2-Sm2O3 and CeO2-La2O3 solid solutions. The Sm- and La-doped CeO2 materials exhibited smaller crystallite size and higher BET surface area compared with the pure CeO2. Owing to the difference in the oxidation states of the dopants(Sm3+ and La3+) and the Ce4+, a number of oxygen vacancies were generated in CeO2-Sm2O3 and CeO2-La2O3 samples. The H2-TPR studies evidenced the improved reducible nature of the CeO2-Sm2O3 and CeO2-La2O3 samples compared with the CeO2. It was found that the addition of Sm and La to the CeO2 outstandingly enhanced its catalytic efficiency for the oxidation of diesel soot. The observed 50% soot conversion temperatures for the CeO2-Sm2O3, CeO2-La2O3 and CeO2 were 790, 843 and 864 K(loose contact), respectively, and similar activity order was also found under the tight contact condition. The high soot oxidation efficacy of the CeO2-Sm2O3 sample was attributed to numerous catalytically favourable properties, like smaller crystallite size, larger surface area, abundant oxygen vacancies, and superior reducible nature.

详情信息展示

Rare earth metal doped CeO2-based catalytic materials for diesel soot oxidation at lower temperatures

A.Rangaswamy1,Putla Sudarsanam2,Benjaram M.Reddy1

1. Inorganic and Physical Chemistry Division, CSIR-Indian Institute of Chemical Technology2. Centre for Advanced Materials and Industrial Chemistry (CAMIC), School of Applied Sciences, RMIT University

摘 要:In this work, the influence of trivalent rare-earth dopants(Sm and La) on the structure-activity properties of CeO2 was thoroughly studied for diesel soot oxidation. For this, an optimized 40% of Sm and La was incorporated into the CeO2 using a facile coprecipitation method from ultra-high dilute aqueous solutions. A systematic physicochemical characterization was carried out using X-ray diffraction(XRD), transmission electron microscopy(TEM), Brumauer-Emmett-teller method(BET) surface area, X-ray photoelectron spectroscopy(XPS), Raman, and H2-temperature programmed reduction(TPR) techniques. The soot oxidation efficiency of the catalysts was investigated using a thermogravimetric method. The XRD results suggested the formation of nanocrystalline single phase CeO2-Sm2O3 and CeO2-La2O3 solid solutions. The Sm- and La-doped CeO2 materials exhibited smaller crystallite size and higher BET surface area compared with the pure CeO2. Owing to the difference in the oxidation states of the dopants(Sm3+ and La3+) and the Ce4+, a number of oxygen vacancies were generated in CeO2-Sm2O3 and CeO2-La2O3 samples. The H2-TPR studies evidenced the improved reducible nature of the CeO2-Sm2O3 and CeO2-La2O3 samples compared with the CeO2. It was found that the addition of Sm and La to the CeO2 outstandingly enhanced its catalytic efficiency for the oxidation of diesel soot. The observed 50% soot conversion temperatures for the CeO2-Sm2O3, CeO2-La2O3 and CeO2 were 790, 843 and 864 K(loose contact), respectively, and similar activity order was also found under the tight contact condition. The high soot oxidation efficacy of the CeO2-Sm2O3 sample was attributed to numerous catalytically favourable properties, like smaller crystallite size, larger surface area, abundant oxygen vacancies, and superior reducible nature.

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