Fe、La掺杂和氧缺陷对CeO_(2)表面吸附As_(2)O_(3)的密度泛函理论研究

采用密度泛函理论研究了As_(2)O_(3)(g)在Fe、La掺杂CeO_(2)(110)表面及氧缺陷LaCeO(110)表面的吸附行为,探索了LaCeO表面砷吸附能力显著高于FeCeO表面的主要原因。结果表明,As_(2)O_(3)(g)的吸附效果与吸附位点数量、吸附能、键长和电荷转移密切相关。纯CeO_(2)表面的吸附主要为化学吸附,吸附能绝对值大于−4.22 eV,电荷转移量为(−0.19)−(−0.31)e,As_(2)O_(3)得到电荷带负电,起表面受主作用,因此吸附量较小。FeCeO(110)表面新增Fe顶位和Bridge-2桥位两个吸附位,其中,Fe顶位为化学吸附,Fe掺杂改变了FeCeO表面电子分布和晶格结构,但并未改变As_(2)O_(3)与FeCeO之间的电荷转移方向,因此,As_(2)O_(3)仍呈负离子形式吸附。LaCeO(110)表面新增了三个吸附位:La顶位、Bridge-3桥位和Hollow-2空位,La掺杂改变了As_(2)O_(3)与LaCeO之间的电荷转移方向,使得As_(2)O_(3)失电子呈正离子吸附,起表面施主作用,因此,吸附能力增强。无O_(2)环境下,单一O缺陷LaCeO(110)表面吸附能力低于完整LaCeO表面;有O_(2)环境下,O缺陷有利于As_(2)O_(3)的吸附。

La掺杂氧空位的α-Bi_(2)O_(3)电子结构和光学性质的第一性原理研究

基于第一性原理的方法研究了本征α-Bi_(2)O_(3)、La掺杂、氧空位掺杂和共掺杂体系的电子结构与光学性质,以期获得性能比较优异的α-Bi_(2)O_(3)光催化材料。研究结果表明:掺杂后,体系结构变形较小,其中氧空位(V_(O))掺杂和La-V_(O)共掺杂体系的禁带宽度价带和导带同时下移且在禁带中引入杂质能级,说明掺杂可以减小电子从价带激发到导带所需能量,有利于电子的跃迁。特别是相对于氧空位单掺杂,La-V_(O)共掺杂使杂质能级向导带底靠近,这个倾向可能使该复合缺陷成为光生电子捕获中心的概率大于成为光生电子-空穴对复合中心的概率;同时,La-V_(O)共掺杂导致导带底附近的能带弯曲的曲率增大即色散关系增强,从而降低了电子的有效质量,加速电子的运动,因此,La-V_(O)共掺杂能大幅改善光生电子-空穴对的有效分离。另一方面La-V_(O)共掺杂在显著扩展可见光吸收范围的同时,还极大地增强了可见光吸收强度。因此,La-V_(O)共掺杂有效改善了α-Bi_(2)O_(3)的光催化活性。本研究为利用稀土离子掺杂改善其他光催化材料的性能提供了一个新的思路。

Z型La-SrTiO_(3)/Ag/Ag_(2)O异质结光催化降解亚甲基蓝研究

采用溶胶-凝胶法、化学沉淀法和光还原法合成了具有高催化活性的Z型La-SrTiO_(3)/Ag/Ag_(2)O异质结光催化剂。对该光催化剂进行了SEM、TEM、XRD、XPS、UV-Vis、PL和EPR的表征分析,并考察了初始亚甲基蓝(MB)浓度、pH和H_(2)O_(2)浓度等相关运行参数对光催化剂催化性能的影响。结果表明,成功制备的La-SrTiO_(3)/Ag/Ag_(2)O复合材料对光具有较大的吸光度,可以有效抑制了光致电子-空穴对的复合。该催化剂具有较高的光催化降解活性,光照120min后对30×10^(-6)的MB降解效率可达到98%。

乙醇水蒸气重整制氢双金属催化剂Ni-Co/La_2O_2CO_3的研究

以La2O2CO3作为载体,采用浸渍法制备了负载型Ni-Co/La2O2CO3双金属催化剂,通过XRD检测金属及载体的晶相,采用自制的升温系统研究催化剂的综合性能。结果表明,催化乙醇水蒸气重整制氢反应中,Ni比Co断裂C—C键的能力强,而Co能提高H2的选择性,Ni-Co质量比为3∶1的双金属催化剂,在400℃时,乙醇转化率可达100%,在500℃时,CO的选择性低至0.28%,而H2的选择性则达到94.11%。与单一金属负载的催化剂相比,Ni-Co双金属催化剂的综合催化性能得到了较好的改善。

Non-isothermal kinetic analysis of thermal dehydration of La_2(CO_3)_3·3.4H_2O in air

The single phase La2（CO3）3·3.4H2 O was synthesized by hydrothermal method. The thermal decomposition and intermediates and final solid products of La2（CO3）3·3.4H2O from 30 to 1000 °C were characterized by XRD, FTIR and DTA-TG. The kinetics of dehydration of La2（CO3）3·3.4H2O in the temperature range of 30-366 °C was investigated under non-isothermal conditions. Flynn-Wall-Ozawa and Friedman isoconversion methods were used to calculate the activation energy and analyze the reaction steps; multivariate non-linear regression program was applied to determine the most probable mechanism and the kinetic parameters. The results show that the thermal dehydration of La2（CO3）3·3.4H2O is a kind of three-step competitive reaction, and controlled by an n-order initial reaction followed by n-order competitive reaction（FnFnFn model）. The activation energy matching with the most probable model is close to value obtained by Friedman method. The fitting curves match the original TG-DTG curves very well.

MgO/La_2O_2CO_3催化剂上的低温甲烷氧化偶联

共沉淀法制备的MgO/La2O2CO3催化剂使甲烷氧化偶联(OCM)在炉温460℃时开始反应,且使反应在50℃炉温下至少24 h。助剂Ni的加入降低了起始和最低反应温度,使催化剂在380℃的炉温下开始反应,之后在无热源的情况下可使反应至少24 h。助剂Zn的加入提高了反应活性,使C2的选择性提高了6%,但同时对低温反应不利,反应在炉温100℃下6 h后自动停止。OCM体系中的强放热反应为OCM温和反应提供了热源。催化剂中的La2O2CO3是维持低温甲烷氧化偶联反应的关键H活性组分。

沉淀剂对SrCO_3/La_2O_2CO_3上低温甲烷氧化偶联反应的影响及反应中的热点效应

用共沉淀法制备了系列SrCO3/La2O2CO3催化剂,制备中沉淀剂的选择影响催化剂的物理化学性质,并最终决定其在低温甲烷氧化偶联(OCM)中的催化性能,其中以n(NaOH)∶n(Na2CO3)=2∶1的NaOH/Na2CO3为复合沉淀剂效果最好,对应的催化剂中检测到两种La2O2CO3的组分,分别为四方晶相的(Ⅰ-)和六方晶相的(Ⅱ-)La2O2CO3。这两种晶相的共存为OCM的低温反应提供所需要的活性位。助剂SrCO3抑制了甲烷的过度氧化,提高了C2的选择性。所得到的最佳催化剂能在100℃炉温下维持OCM反应至少24 h,使CH4转化率达25.6%,C2选择性达43.4%。伴随OCM的甲烷氧化生成COx的副反应产生的热点效应为OCM温和反应提供了热源。

Study on Preparation and Properties of La_2O_3/MC Nylon Nanocomposites

A series of La2O3/MC nylon nanocomposites were prepared via in situ polymerization. The effects of content of nano-La2O3 on the mechanical properties of nanocomposites were studied. Dispersion of nano-La2O3 in MC nylon matrix was observed with SEM. The crystal structure of nanocomposites was characterized by means of XRD. SEM analysis shows that La2O3 nanoparticles are uniformly dispersed in MC nylon matrix and little clustering exists when the content of nano- La2O3 is lower than 1%, however, when the content of nano-La2O3 is more than 1%, it begins to cluster. XRD analysis indicats that nano-La2O3 does not change the crystal structure of MC nylon. Mechanical properties tests show that the tensile strength, elongation at break, impact strength, flexural strength, and flexural modulus of nanocomposites first increase then decrease as the content of nano-La2O3 is increased. When the content of nano-La2O3 is 0.5%, the tensile strength and elongation at break of nanocomposites reach maximum, which are 17.9% and 52.1% higher respectively than those of MC nylon. When the content of nano-La2O3 is 1.0%, the impact strength, flexural strength and flexural modulus of nanocomposites reach maximum, which are 36.6 %, 12.7 % and 16.3 % higher respectively than those of MC nylon.

Morphology and Mechanical Properties of PS/Al_2O_3 Nanocomposites Based on Selective Laser Sintering

Selective laser sintering （SLS） is a new process to prepare the polystyrene （PS）/Al2O3 nanocomposites. In this paper, with different laser power and other processing parameters unchanged, the morphology, density and mechanical properties of the sintered specimens were investigated. It was found that nano-sized inorganic particles are uniformly located in the PS matrix and the maximum density of the sintered specimens with pure PS powder reaches 1.07 g/cm^3, higher than 1.04 g/cm^3 that of the sintered specimens with mixture powder. Due to strengthening and toughness of the nano-sized Al2O3 inorganic particles, the maximum notched impact strength and tensile strength of the sintered part mixed with nano-sized inorganic particles are improved greatly from 7.5 to 12.1 kJ/m^2 and from 6.5 to 31.2 MPa, respectively, under the same sintering condition.

Structural characteristics and dielectric properties of glass-ceramic nanocomposites of(Pb,Sr)Nb_2O_6-NaNbO_3-SiO_2

The structure and dielectric properties of （Pb,Sr）Nb2O6-NaNbO3-SiO2 glass-ceramics with different Pb and Sr contents were investigated. The XRD pattern of glass-ceramics without Sr substitution is different from that with Sr substitution, which indicates the existence of orthorhombic phase in the latter ones. TEM bright field observation shows nanosized microstructures, while for samples with Sr, typical eutectic microstrncture with separated crystallized bands is found in the glass matrix. Dielectric properties measurement of the samples indicates an obvious improvement of dielectric constant, dielectric loss, DC field and temperature dependence of dielectric constant when the molar ratio of Sr to Pb is 4：6.

TiO_2(掺入La_2O_3)催化超声降解甲基橙

以实验室合成的La2O3掺入TiO2作为催化剂,以超声降解甲基橙反应为模型,研究了各种因素对La2O3掺入TiO2催化超声降解甲基橙溶液的影响。结果表明,在TiO2(掺入La2O3)催化剂作用下超声降解甲基橙的效果明显优于单纯以锐钛矿型TiO2催化时的情况。TiO2(掺入La2O3)用量为0.5～1.0g/L、超声波频率为25kHz、输出功率为1.0W/cm2、pH值为1.0～3.0时,初始浓度为20mg/L的甲基橙水溶液在80min左右基本可降解完全,COD的去除率达到了99.0%。

Eu^3＋激活的La2Mo2O9红色荧光粉的制备与性能

利用高温固相法制备了Eu3+掺杂的La2Mo2O9红色荧光粉,并对这种荧光粉的结构及发光性质进行了研究。XRD结果表明,实验合成了单一立方相的La2Mo2O9荧光粉体。该荧光粉的激发光谱由一宽带和一系列的锐峰组成;发射光谱由一系列锐峰组成,这些都与Eu3+的特征跃迁5DJ(J=0,1)和7FJ(J=1~4)相对应。结果表明该荧光粉可被395nm的紫外光和470nm的可见光有效激发,并发出峰值位于620nm左右的红光,亮度可达到传统红色荧光粉Y2O2S∶Eu3+的1.5倍以上,这表明它可以作为'蓝+黄'模式白光LED的红色补光粉,也可以作为UV-LED激发三基色荧光粉体系中的红色荧光粉。研究了Eu3+的掺杂浓度以及不同助熔剂对样品发光性质的影响。Eu3+的摩尔分数为0.3时,发光强度达到最强。质量分数为3%的NH4Cl作为助熔剂时效果最好。

硬脂酸法制备超细K_2La_2Ti_3O_(10)及其酸交换性质研究

A new stearic acid method(SAM) has been used to prepare ultrafine K2La2Ti3O10 nanocrystalline. Each state of synthesis process was followed by the use of FT IR analysis. The resulting materials have been characterized by means of XRD, TEM, BET surface area analysis. The acid exchanging property of the obtained product was also studied. The experimental results showed that comparing with the product of traditional solid state reaction, the particle size of the K2La2Ti3O10 synthesized by SAM is greatly reduced, BET surface area is high(more than 11.83m2· g- 1) and has different acid exchanging properties. It can be easily exfoliated in 2mol· L- 1 HNO3 solution.

碳化La_2O_3-Mo阴极材料的高温XPS研究

采用高温 X射线光电子能谱 (XPS)对碳化 La2 O3- Mo阴极材料表面 La的价态进行了研究。结果表明 ,材料中的 La2 O3可以被 Mo2 C还原成单质 La。单质 La的结合能高于 La2 O3的结合能。从实验上证实单质 La3d5/2的结合能为 835.96e V,并首次给出单质 La3d3/2结合能实验数值为 852 .2 3e V。

La_2O_3对Mo粉性能影响的研究

采用光电子能谱分析方法对掺杂 L a2 O3的 Mo粉的性能进行了研究。结果表明 :掺杂 L a(NO3) 3的 Mo O2 粉经过还原处理后 ,Mo粉表面的纳米 L a2 O3微粒可以减小 Mo基体的特征能量损失峰 ,增加 Mo3d光电子谱峰强度 ;由于纳米 L a2 O3粒子在金属 Mo的表面及周围对 Mo起到包埋效应 ,减小了 Mo与大气的接触面积 ,从而使

热障涂层用La2O3、Y2O3共掺杂ZrO2陶瓷粉末的制备及其相稳定性

采用反向化学共沉淀法制备了热障涂层用La2O3-Y2O3-ZrO2(LaYSZ)原始复合粉末,将原始粉末团聚造粒和热处理后得到适于等离子喷涂的团聚粉末.采用电感耦合等离子体原子发射光谱(ICP-AES)、扫描电子显微镜(SEM)、霍尔流速计、X射线衍射(XRD)等方法分别对LaYSZ的化学组成、微观形貌、流动性和松装密度、高温相稳定性进行了研究.结果表明:LaYSZ团聚粉末室温呈四方ZrO2结构,在1150℃热处理2h后为致密的球形或近球形颗粒,粉末流动性较好,适于等离子喷涂.LaYSZ团聚粉末在1300℃热处理100h后仍保持单一的四方ZrO2晶型,而8YSZ中有12mol%的四方相转变为单斜相;LaYSZ在1400℃热处理100h后,单斜相含量为2mol%,而8YSZ中单斜相含量达到47mol%,表明La2O3、Y2O3共掺杂稳定ZrO2较单一Y2O3稳定ZrO2具有更好的高温相稳定性.

La_2O_3在MgO-Al_2O_3-SiO_2-TiO_2微晶玻璃中的作用

在ＭｇＯ－Ａｌ２Ｏ３－ＳｉＯ２－ＴｉＯ２玻璃中添加不同数量的氧化镧，采用差热分析、Ｘ射线衍射及电子显微镜等技术研究了氧化镧对玻璃析晶过程与力学性能的影响．氧化镧的加入使玻璃中析出α－堇青石相的温度降低；同时避免了高膨胀方石英相的析出．随着氧化镧加入量的增加，玻璃整体析晶能力下降，微晶玻璃中晶相含量减少，晶粒尺寸增大，微晶玻璃的弹性模量与硬度减小，断裂韧性增加，体现出大尺寸长柱状金红石晶粒的增韧作用．

可见光下Fe^(3+)掺杂对K_2La_2Ti_3O_(10)分解水制氢性能的影响

采用溶胶-凝胶法制备了Fe3+掺杂的Fe-K2La2Ti3O10光催化剂,并通过X射线衍射(XRD)、紫外-可见漫反射(DRS)、X射线光电子能谱(XPS)等技术对其进行了表征和分析,考察了不同掺杂量对K2La2Ti3O10的性质及光催化分解水制氢活性的影响.结果表明,Fe-K2La2Ti3O10在400-650nm范围内显示强吸收,光谱响应扩展到可见光区(λ>400nm),掺杂Fe3+后,K2La2Ti3O10的可见光区的光催化制氢活性显著提高,掺杂量为nFe/nTi=0.04时活性最佳,当催化剂用量为0.1g,反应液为CH3OH(30mL)+H2O(90mL)时,产氢量达到1.92μmol·h-1,为未掺杂时的4倍.

溶胶-凝胶法制备La_2O_3纳米粉体

以普通La2O3,硝酸,聚乙二醇为原料,利用溶胶-凝胶法制备了纳米La2O3粉体,利用TG-DTA,XRD,TEM等各种测试方法对干凝胶300℃灼烧所得前驱体粉末的分解过程及最终形成的纳米氧化镧粉体进行了分析和表征,并研究了浓度、搅拌和分散剂聚乙二醇(PEG)添加量等因素的改变对La2O3 粉体的粒径、形态的影响。实验结果表明,在适当工艺参数下,可以制得平均粒径小于50 nm 的La2O3粉体。

La_2O_3-Mo阴极的发射机理

采用热分析、原位ＸＰＳ等方法对 Ｍｏ—Ｌａ２Ｏ３阴极中 Ｌａ的价态进行了研究，探讨了该阴极的发射机理．实验结果表明，在高温下Ｌａ２Ｏ３可以被Ｍｏ２Ｃ还原成单质Ｌａ． Ｌａ２Ｏ３－Ｍｏ阴极的发射可用原子膜机理解释：在阴极工作过程中，还原得到的 Ｌａ覆盖在Ｍｏ基体表面，降低了基体 Ｍｏ的逸出功，促进了阴极的发射根据此机理提出Ｌａ２Ｏ３－Ｍｏ电子管制备和运行工艺．使电子管的工作寿命提高到了满足实际应用要求的水平．