胶溶法制备铈锆镧共改性氧化铝及催化性能

γ-Al2O3是机动车尾气净化催化剂的常用载体,其高温热稳定性、比表面积、孔容、孔径及表面酸性等对催化活性有很大影响.近年来,大量研究结果表明,铈、锆、镧和钡等元素的添加可以提高氧化铝的高温热稳定性和催化活性[1～3],然而这些研究大多致力于单组分或者双组分改性氧化铝,制备方法以浸渍法和溶胶-凝胶法为主.胶溶法制备三组分共同改性氧化铝的研究很少.本文利用胶溶法制备了系列铈、锆、镧改性氧化铝,讨论了三组分共同添加对氧化铝载体的性质以及催化剂活性的影响.     

耐高温高表面氧化铝的制备及性质──添加钡及钡与镧的协同作用对氧化铝热稳定性的影响

氧化铝是高温催化反应中常用的载体材料. 高于1 000 ℃时, Al2O3通过表面活性原子的迁移和表面羟基脱水发生烧结, 并向α相转变[1,2], 同时随着比表面积剧烈下降, 导致催化剂活性组分聚集, 催化剂活性下降等. 大量研究表明, 稀土元素, 硅及碱土元素可明显改善氧化铝的热稳定性[3～8]. 本文以溶胶-凝胶法单独引入Ba元素, 考察了Ba添加量对Al2O3热稳定性的影响. 还采用溶胶-凝胶与表面浸渍相结合的方式共同引入La和Ba, 考察了两元素协同作用对Al2O3热稳定性的影响.     

胶溶法制备镧-钡共稳定氧化铝的性能

以硝酸为胶溶剂, 两种拟薄水铝石为前驱体, 用胶溶法制备了镧-钡共稳定的氧化铝. 采用X 射线衍射(XRD)、表面分析仪(BET)、氨气程序升温脱附(NH3-TPD)和NO2程序升温脱附(NO2-TPD)技术对所制备的镧改性和镧钡共改性氧化铝的结构特性和表面性能进行了表征. XRD结果表明, 改性氧化铝在1273 K焙烧后均以γ-Al2O3相存在. 当BaO添加量达到14%(w)时, 有少量BaCO3生成. BET结果表明, 在1273 K下焙烧5 h后, 5%(w)La2O3稳定的氧化铝(Ba-0)和5%La2O3与8%BaO共同稳定的氧化铝(Ba-8)均具有较大的比表面积, 各种氧化铝的吸附等温线表明它们的孔形状均为狭缝型孔和瓶型孔, 孔径分布曲线表明, 仅有样品Ba-8的孔径分布较宽, 孔径为6-10 nm, 其它三种样品的孔径均集中在10 nm; NH3-TPD结果表明, 随着氧化钡添加量的逐渐增多, 氧化铝表面的酸量、酸强度逐步减少. NO2-TPD结果表明, 添加BaO后载体对NO2的吸附量增多, 随着BaO含量的增多, 体相Ba(NO3)2增多. 由于样品Ba-8同时具有很好的织构性质、适中的表面酸量和酸强度分布及NO2吸附脱附能力, 使得以它为载体的催化剂具有最好的催化性能,丙烷的起燃温度和完全转化温度分别为526 K和593 K.     

镧、锆改性的氧化铝载体对钯催化氧化甲烷活性的影响

研究了镧、锆改性的氧化铝载体对钯催化氧化甲烷活性的影响,结果表明,nLa∶nZr=2∶1时,所得的改性氧化铝载体在1 050℃焙烧后具有较大的比表面积和孔容;nLa∶nZr=1∶2时,所得的改性氧化铝载体经过1 050℃焙烧后具有较大的储氧量;Pd/Al2O3高温下的烧结情况较为严重,而加入La与Zr后烧结现象得到明显改善;改性后的Pd/La0.13Zr0.065-Al对甲烷氧化的活性最高,Pd/La0.065Zr0.13-Al次之,未改性的Pd/Al2O3活性最低.     

氧化铝柱层状镧钛酸盐的制备

本文采用分步交换法首次制得了一种新的层柱材料－氧化铝柱层状镧钛酸盐，应用Ｘ射线衍射（ＸＲＤ）、红外光谱（ＩＲ）及透射电子显微镜（ＴＥＭ）等方法对该新材料进行了表征。结果表明，此材料具有较大的层间距（ｄ＝２．０５ｎｍ，６００℃）和较高的热稳定性（＞７００℃），同时考察了合成条件的改变对该材料性能的影响     

高温高表面氧化铝新材料的制备化学研究——La、Ba共添加对氧化铝热稳定性的影响

本文用镧、钡共同添加并使用溶胶-凝胶法制得改性氧化铝。详细研究了在保持 La含量为 5.2wt％时, Ba添加量的改变对氧化铝热稳定性的影响。实验结果表明镧、钡元素的共添加能大大增加氧化铝的热稳定性,从而使氧化铝在高温下保持高比表面积。体相中同时添加 5.2wt％ La和 2wt％ Ba以及 5.2wt％ La和 7wt％ Ba能使氧化铝保持较好的热稳定性,样品经 1100℃煅烧 20h后,比表面分别达 100.8m2· g-1和 92.3m2· g-1。通过对添加物与氧化铝保持高温高表面能力的内在联系的探讨,得出 Ba、 La元素的添加提高氧化铝热稳定性的原因主要表现在两方面：一是抑制氧化铝的微孔烧结速度;二是阻止了氧化铝向α相的转变。     

镧和铈改性对氧化铝性质的影响

 以拟薄水铝石为前驱物，采用溶胶法制备了γ－Al2O3，在制备 初期添加硝酸镧或硝酸铈对氧化铝进行改性，并使用红外光谱、氮物理 吸附和X射线衍射等方法对样品进行了表征．实验表明，稀土添加物覆 盖了部分氧化铝的表面羟基．在1000℃下对样品烧结行为的考察发现， 添加镧或铈化合物都能提高γ－Al2O3的抗烧结性能和高温稳定性，镧 改性样品的效果略优于铈改性样品．烧结动力学研究发现，制备的氧化 铝的烧结机理为体相扩散，加入稀土有效地阻止了氧化铝颗粒内的体相 扩散．用微反装置测定了改性样品的反应性能，发现铈改性样品有一定 的裂化性能和脱氢性能，而镧改性样品几乎无催化活性．     

高温高表面氧化铝新材料的制备化学研究——镧和表面活性剂对氧化铝性质的影响

在汽车尾气催化净化、催化燃烧等高温严酷环境中,催化剂载体由于烧结等原因,其比表面剧烈减少,引起活性组分聚集,从而使催化剂活性明显下降^[1,2]。氧化铝是一种常用载体,但经高温煅烧后容易烧结并向α相转变,导致比表面减少。目前许多文献报道了稀土元素、碱土金属以及硅元素对氧化铝的改性作用^[3-5],这些元素的添加可在一定程度上提高氧化铝的热稳定性,但表面活性剂在这一方面的应用未见报道。本文采用溶胶－凝胶法制备了镧改性的氧化铝,通过添加不同比例表面活性剂[聚乙烯醇（PVA）]研究了镧和聚乙烯醇对氧化铝孔性质及热稳定性的影响。     

La2O3对氧化铝透明陶瓷显微结构和透光性能的影响

采用传统无压烧结工艺在氢气氛下制备Al2O3透明陶瓷。实验结果表明：MgO和La2O3复合添加时，随着La2O3掺杂量的增加体积密度总体上保持上升的趋势。随着保温时间的延长，陶瓷的致密化程度增大，残余气孔逐步排出，晶粒进一步长大。采用La2O3和MgO复合添加比单独掺入MgO陶瓷样品透过率更高，掺杂效果更好。在烧结温度为1750℃，保温时问为1h条件下，在波艮为300～800nm测试范围内，陶瓷样品的全透过率大于82％，最大值为86％。     

Reaction of NO at low temperature by ACF loading urea and rare-earth element oxides (La2O3, CeO2)

Loaded catalysts of 10–50% (w/w) urea loaded on activated carbon fibers (ACF), referred to as urea/ACF, and 10%urea–5–15% (w/w) La₂O₃/ACF and CeO₂/ACF were prepared by an impregnation method and used for removal of NO at low temperature (30–120°C). The experimental results showed that the catalytic activity of urea/ACF could be greatly improved by loaded rare-earth element oxides. Furthermore, 10%urea–5%La₂O₃/ACF and 10%urea–10%CeO₂/ACF could maintain high and stable catalytic activity at 100°C.     

Reactivity of Binary Mixtures of La(III) Oxide and Cu(II) Oxalate or Nitrate and Synthesis of La(III) Cuprate

Reactivity of mixtures of La(III) oxide and Cu(II) oxalate/nitrate in hydrated as well as anhydrous state was studied using TG, DTA and XRD. Cu(II) oxide formed in the endothermic decomposition of mixture containing hydrated Cu(II) nitrate and La(III) oxide could not form La₂CuO₄ while Cu(II) oxide formed in the exothermic decomposition of mixture containing hydrated/anhydrous Cu(II) oxalate and La(III) oxide reacts with La(III) oxide and develops the phases CuLaO₃ and La₂CuO₄. The maximum reactivity with respect to the formation of La₂CuO₄phase was observed in mixture containing anhydrous Cu(II) oxalate. This revised version was published online in July 2006 with corrections to the Cover Date.     

介孔氧化铝的溶胶-凝胶法制备

以硝酸铝为铝源,十六烷基三甲基溴化铵和尿素为复合模板剂,采用溶胶-凝胶法制备了介孔氧化铝（1）,其结构经TEM, XRD, TG-DTA和N₂-BET表征。结果表明：1比表面积较大（＞400 m²·g^-1）,孔径分布窄(3～5 nm),形成的蠕虫状孔道具有短程有序性。     

水合氧化铝的热处理及纳米氧化铝的颗粒特性

利用IR、XRD、TG-DTA和TEM等测试技术研究了醇铝的水解产物——水合氧化铝的特性及水合氧化铝的热处理过程，探讨了热处理工艺对纳米氧化铝颗粒特性的影响规律。结果表明，醇铝的水解产物水合氧化铝为富含吸附水和结构水的非晶态一水铝石，300 ℃煅烧后出现部分非晶态γ-Al₂O₃；煅烧温度、保温时间和冷却方式均能影响纳米氧化铝粒子的晶型、大小和形貌，其中煅烧温度影响最大，冷却方式影响次之，保温时间影响最弱；在750 ℃ / 3 h、800 ℃ / 4 h、900 ℃ / 4 h、950 ℃ / 4 h和1 000 ℃ / 4 h随炉冷却工艺条件下，分别得到粒径为3~5 nm、3~5 nm、5~10 nm、10~15 nm和50~100 nm的纤维状或球状、α相或γ相的纳米氧化铝粒子。     

超级铝热剂Al/Fe2O3的制备、表征及对环三亚甲基三硝胺热分解的影响

采用水热法制备了中空短棒状纳米Fe2O3,并用超声分散法将其与纳米Al颗粒复合为单金属氧化基超级铝热剂.利用X射线粉末衍射(XRD)、傅里叶变换红外(FTIR)光谱、扫描电镜及能量散射光谱仪(SEM-EDS)对样品进行表征.并运用差示扫描量热法(DSC)对比研究了超级铝热剂Al/Fe2O3、Al粉和纳米Fe2O3对环三亚甲基三硝胺(RDX)热分解特性的影响.结果表明:超级铝热剂的加入改变了RDX的热分解过程,并加剧了RDX的二次气相反应;随着超级铝热剂含量的增加,RDX的分解峰峰形发生了明显的改变;Al/Fe2O3、Al粉和Fe2O3对RDX热分解的作用主要表现为二次分解峰逐渐明显且峰温降低.     

Carbon Dioxide Reforming of Methane over Ni Catalysts Supported on Al2O3 Modified with La2O3, MgO, and CaO

The preparation of synthesis gas from carbon dioxide reforming of methane (CDR) has attracted increasing attention. The present review mainly focuses on CDR to produce synthesis gas over Ni/MO_x/Al₂O₃ (X = La, Mg, Ca) catalysts. From the examination of various supported nickel catalysts, the promotional effects of La₂O₃, MgO, and CaO have been found. The addition of promoters to Al₂O₃-supported nickel catalysts enhances the catalytic activity as well as stability. The catalytic performance is strongly dependent on the loading amount of promoters. For example, the highest CH₄ and CO₂ conversion were obtained when the ratios of metal M to Al were in the range of 0.04–0.06. In the case of Ni/La₂O₃/Al₂O₃ catalyst, the highest CH₄ conversion (96%) and CO₂ conversion (97%) was achieved with the catalyst (La/Al = 0.05 (atom/atom)). For Ni/CaO/Al₂O₃ catalyst, the catalyst with Ca/Al = 0.04 (atom/atom) exhibited the highest CH₄ conversion (91%) and CO₂ conversion (92%) among the catalysts with various CaO content. Also, Ni/MgO/Al₂O₃ catalyst with Mg/Al = 0.06 (atom/atom) showed the highest CH₄ conversion (89%) and CO₂ conversion (90%) among the catalysts with various Mg/Al ratios. Thus it is most likely that the optimal ratios of M to Al for the highest activities of the catalysts are related to the highly dispersed metal species. In addition, the improved catalytic performance of Al₂O₃-supported nickel catalysts promoted with metal oxides is due to the strong interaction between Ni and metal oxide, the stabilization of metal oxide on Al₂O₃ and the basic property of metal oxide to prevent carbon formation.     

Preparation of Alumina Supported Palladium Catalysts by Sol-Gel Method

The chemical reactivity of the aluminium-sec-butoxide (ASB) and the palladium acetylacetonate Pd(acac)₂, used as precursors for the preparation of the alumina supported palladium catalysts by sol-gel method was investigated by the spectroscopic study of the precursor mixture during ageing, using FTIR, UV-VIS and ²⁷Al NMR. The obtaind results showed that acetylacetonate ligands were linked to aluminum when the mixture was aged at 40°C. This was proved by the bands observed at 1530 and 1600 cm^–1 in the FTIR spectra, the band obtained at 289 nm in the UV-VIS spectra and the ²⁷Al NMR sharp peak at 3 ppm. Furthermore, in order to avoid the Pd(acac)₂ reduction to metallic palladium by the SB occurring when the mixture is aged for 3 h, an optimum ageing time should be selected. The precursors modification and the preservation of the palladium oxidation state during ageing could be the required conditions to create a bond between palladium and aluminium during the gelation step. This should be the reason of the thermal stability improvement of the alumina supported palladium catalyst prepared by the sol-gel method.     

兼具电磁性能的PANI/ZnFe2O4纳米复合材料的制备

运用改进的溶胶凝胶-原位聚合法制备出了兼具电、磁性能的PANI/ZnFe2O4纳米复合材料,借助TEM、XRD、FTIR、四探针电导率仪和VSM(振动样品磁强计)等技术研究了复合材料的结构及其电磁性能。结果表明,通过该法可以实现ZnFe2O4与PANI的有机复合,制得纳米尺寸的、ZnFe2O4与PANI相间以化学键结合的纳米复合材料;复合材料兼具电、磁性能,其导电率随ZnFe2O4含量增加而降低,饱和磁化强度随之而升高,复合物的矫顽力在所研究的含量范围内均较纯ZnFe2O4大,且随ZnFe2O4含量的增加呈先升高后降低的变化趋势。此外,对ZnFe2O4进行HNO3预处理可以有效改善复合材料的电磁性能。     

Phase relations, crystal chemistry, and dielectric properties in sections of the La2O3-CaO-MgO-TiO2 system

Subsolidus phase equilibria and crystal chemistry were studied for the La₂O₃-MgO-TiO₂ system and for the ternary sections LaMg_1/2Ti_1/2O₃-CaTiO₃-La₂O₃ and LaMg_1/2Ti_1/2O₃-CaTiO₃-La_0.833Mg_0.25Ti_0.75O₃ in the quaternary La₂O₃-CaO-MgO-TiO₂ system. Dielectric properties (relative permittivity and temperature coefficient of resonant frequency, τ_f) were measured at 5-10 GHz and mapped onto the phase equilibria relations to reveal the compositions of temperature-stable (τ_f=0) compounds and mixtures. Phase equilibria relations were obtained by X-ray powder diffraction analysis of approximately 80 specimens prepared by solid-state reactions in air at ∼1450°C. Six ternary phases were found to form in the La₂O₃-MgO-TiO₂ system, including the three previously reported compounds LaMg_1/2Ti_1/2O₃, La₅Mg_0.5Ti_3.5O₁₅, and “La₆MgTi₄O₁₈”; and the new phases La₁₀MgTi₉O₃₄, La₉Mg_0.5Ti_8.5O₃₁, and a perovskite-type solid solution (1−x)LaMg_1/2Ti_1/2O₃-xLa_2/3TiO₃ (0?x?0.5). The phase previously reported as “La₆MgTi₄O₁₈” was found to form off-composition, apparently as a point compound, at La₆Mg_0.913Ti_4.04O₁₈. Indexed experimental X-ray powder diffraction patterns are given for LaMg_1/2Ti_1/2O₃, La₅Mg_0.5Ti_3.5O₁₅, La₆Mg_0.913Ti_4.04O₁₈, La₁₀MgTi₉O₃₄, and La₉Mg_0.5Ti_8.5O₃₁. LaMg_1/2Ti_1/2O₃ exhibits a slightly distorted perovskite structure with ordered B-cations (P2₁/n; a=5.5608(2) Å, b=5.5749(3) Å, c=7.8610(5) Å, β=90.034(4)°). La₅Mg_0.5Ti_3.5O₁₅ (Pm1; a=5.5639(1), c=10.9928(5) Å) and La₆Mg_0.913Ti_4.04O₁₈ (R3m; a=5.5665(1), c=39.7354(9) Å) are n=5 and n=6 members, respectively, of the (111) perovskite-slab series A_nB_n−1O_3n. The new phases La₁₀MgTi₉O₃₄ (a=5.5411(2), b=31.3039(9), c=3.9167(1) Å) and La₉Mg_0.5Ti_8.5O₃₁ (a=5.5431(2), b=57.055(1), c=3.9123(1) Å) are n=5 and n=4.5 members, respectively, of the (110) perovskite-slab series A_nB_nO_3n+2, which exhibit orthorhombic subcells; electron diffraction revealed monoclinic superlattices with doubled c-parameters for both compounds. Extensive perovskite-type solid solutions form in the ternary sections LaMg_1/2Ti_1/2O₃-CaTiO₃-La₂O₃ and LaMg_1/2Ti_1/2O₃-CaTiO₃-La_0.833Mg_0.25Ti_0.75O₃. The La₂O₃-MgO-TiO₂ system contains two regions of temperature-stable (τ_f=0) compositions. The quaternary La₂O₃-CaO-MgO-TiO₂ system contains an extensive single-phase perovskite-type volume through which passes a surface of temperature-stable compositions with permittivities projected to be in the 40-50 range. Traces of this surface occur as lines of τ_f=0 perovskite-type phases in the ternary sections LaMg_1/2Ti_1/2O₃-CaTiO₃-La₂O₃ and LaMg_1/2Ti_1/2O₃-CaTiO₃-La_0.833Mg_0.25Ti_0.75O₃.     

氧化铝载体和氧化钡助剂对钌基氨合成催化剂结构和性能的影响

采用不同来源γ-Al2O3(市售Al2O3-1,合成Al2O3-2)作为钌基氨合成催化剂载体,利用浸渍法制备了一系列添加不同BaO助剂含量的Ba-Ru/Al2O3催化剂.通过X射线衍射(XRD)、N2-低温物理吸附、X射线荧光光谱(XRF)、透射电镜(TEM)、H2程序升温还原(H2-TPR)、NH3程序升温脱附(NH3-TPD)和X射线光电子能谱(XPS)等方法研究了不同来源的Al2O3以及BaO助剂含量对负载型钌基催化剂的物相结构、织构性质、微观形貌、表面性质和催化剂的氨合成活性等方面的影响.结果表明,载体的物理化学性质对制备的钌基氨合成催化剂的结构以及活性有较大影响.BaO助剂对催化剂的影响主要表现在两个方面:添加量不同导致BaO与γ-Al2O3的作用力不同,从而进一步影响催化体系的比表面积和孔结构性质;BaO助剂会对体系的Ru物种还原性质以及催化剂表面酸碱性质进行调节,适量BaO的加入能够极大提高反应活性,而这种最佳量与载体性质密切相关.