立方相KTa_(0.67)Nb_(0.33)O_3晶体的系列相变研究

采用拉曼散射技术研究了立方相KTa0.67Nb0.33O3晶体的系列相变,从声子角度分析了各相变特点。降温过程中立方-四方和四方-正交相变分别发生在-29℃和-95℃左右,正交-三方相变可能发生在-150℃左右。最后简单讨论了晶体的相变机制和居里点与晶体组分的关系,并比较分析了居里点的实验值与理论值的差异。

Ca、Bi掺杂对Ba_(0.67)Sr_(0.33)TiO_3陶瓷结构与介电性能的影响

为提高Ba0.67Sr0.33Ti O3陶瓷介电性能、降低成本,采用低熔点化合物掺杂。利用X射线衍射仪(XRD)和扫描电子显微镜(SEM)等研究了Ca、Bi掺杂对Ba0.67Sr0.33Ti O3陶瓷微观结构与性能的影响。研究发现,Ca、Bi掺杂使Ba0.67Sr0.33Ti O3陶瓷烧结温度显著降为1 100℃,且有效抑制了晶粒的生长。Ca、Bi掺杂明显改善了Ba0.67Sr0.33Ti O3陶瓷温度稳定性,当超出一定固溶限度(x>6%)时,介电常数温度稳定的范围已无显著改善。

KTa_(0.5)Nb_(0.5)O_3电子结构的第一性原理研究

用全电势线性缀加平面波法 (FLAPW )计算了KTa0 .5Nb0 .5O3 铁电相和顺电相的态密度、能带结构 .通过对两相态密度的对比分析我们发现在铁电相 ,钽原子的d电子和氧原子的 2p电子以及铌原子d电子与氧原子的 2p电子之间存在强烈的轨道杂化 ,对能带的分析也得出同样的结论 .这种轨道杂化对KTa0 .5Nb0 .5O3 铁电性的稳定有着重要的意义 .钽原子在四方铁电体KTa1 xNbxO3 中的作用与在纯钽酸钾中的作用有明显的差别 .

KTa_(0.5)Nb_(0.5)O_3电子结构的第一性原理研究

用全电势线性缀加平面波法(FLAPW)计算了KTa_0.5Nb_0.5O_3铁电相和顺电相的态密度、能带结构.通过对两相态密度的对比分析发现,在铁电相,钽原子的d电子和氧原子的2p电子以及铌原子d电子与氧原子的2p电子之间存在强烈的轨道杂化,对能带的分析也得出同样的结论.这种轨道杂化对KTa_0.5Nb_0.5O_3铁电性的稳定有着重要的意义.钽原子在四方铁电体KTa_1-xNb_xO_3中的作用与在纯钽酸钾中的作用有明显的差别.

KTa_（1－x）Nb_xO_3薄膜的性能研究进展

报道ＫＴａ１－ｘＮｂｘＯ３薄膜的性能研究进展，详细地介绍了该薄膜的物化结构性能、电学性能和光学性能的表征方法及对表征结果的分析。

KTa_(0.77)Nb_(0.23)O_3纳米片的微结构和Raman光谱研究

以Ta2O5,Nb2O5和KOH为原料,采用水热法合成边缘尺寸约100nm,厚约10nm的KTa0.77Nb0.23O3(KTN)单晶纳米片.X线衍射(XRD)结果表明,产物为立方相钙钛矿结构;X线荧光光谱(XRF)显示,纳米片中K、Ta和Nb的比例约为1∶0.70∶0.22,与KTa0.77Nb0.23O3化学计量比有轻微的偏移,这主要是KTN纳米片表面Ta元素强烈的自吸收引起的.室温拉曼光谱研究显示纳米片有8个声子振动峰,频率分别位于166,214,274,462,562,765,876和1 098cm-1,较之块体散射峰发生了红移和较大的展宽,这可能是由于纳米片的表面应力或结构缺陷导致,如堆垛层错等.

水热法制备四方相KTa_(0.6)Nb_(0.4)O_3及其电导与光学性能的研究

利用水热合成法在温度180～240℃和KOH浓度7～18mol/L的条件下合成了四方相KTa0.6Nb0.4O3(KTN)超微粉.通过XRD、UV-Vis和电导率等的测试分析,对粉体的水热合成工艺和性能进行了系统的研究.结果表明:KTN超微粉的相结构随着合成温度和矿化剂浓度的增加,从立方相过渡到四方相,且晶粒尺寸也随之增大.当KOH浓度增加时,KTN的禁带宽度Eg值由3.24eV增至3.34eV;当合成温度升高时,Eg值几乎没有变化.在KTN中掺杂金属W6+离子,可降低KTN陶瓷的电导率和漏电流,增大极化强度,使其易于极化,提高KTN材料的实用性.

Zn缺位对Ba(Co_(0.6)Zn_(0.4))_(1/3)Nb_(2/3)O_3陶瓷性能的影响

采用传统固相反应法制备了Ba(Co0.58Y0.02Zn0.4-x)1/3Nb2/3O3(x=0,0.01,0.02,0.03,0.04,0.06)陶瓷,系统研究了Zn缺位对陶瓷的物相组成、微观结构和微波介电性能的影响。X线衍射(XRD)结果表明所有配方陶瓷的主晶相均为BaZn0.33Nb0.67O3-Ba3CoNb2O9(BCZN),并存在不同量的第二相Ba8CoNb6O24,适量的Zn缺位可提高BCZN体系的有序度,x=0.02时,其有序度最大。电镜扫描(SEM)结果表明适量的Zn缺位可促进烧结致密化,但Zn缺位过多,会使第二相增多,陶瓷的致密度恶化。随着x的增加,陶瓷的介电常数(εr)基本不变,但品质因数与频率的乘积(Q×f)得到了有效的改善,谐振频率温度系数(τf)先减小后增大。当x=0.02时,BCZN体系陶瓷的εr=35.12,Q×f=52 678GHz,τf=3.28×10-6/℃。

KTa_(0.25)Nb_(0.75)O_3纳米棒的合成及光催化特性研究

采用聚合物辅助水热法合成具有正交钙钛矿结构的单晶KTa0.25Nb0.75O3(KTN)纳米棒.微结构分析表明,聚合物的种类和配比对水热体系中KTN纳米棒的取向生长有重要影响,添加聚乙烯醇(PVA)时可获得[001]取向的KTN,同时添加聚丙烯酸(PAA)和PVA时可获得[110]取向的KTN.此外,两种取向的KTN纳米棒表现出明显不同的光催化性质.

MgO-B_2O_3二元体系微波介电材料的制备及性能研究

以MgO和B_2O_3为原料,采用固相法合成了0.67MgO-0.33B_2O_3陶瓷。利用X射线粉末衍射仪和阿基米德法研究了烧结温度、烧结时间对陶瓷材料的晶相、介电常数、品质因子Q·f值等性能的影响。结果表明,烧结温度为1 290～1 350℃时,0.67MgO-0.33B_2O_3陶瓷的介电常数并没有显著的变化。当烧结温度在1 350℃以上时,陶瓷则会形成MgO和Mg3B2O6晶相,两相共存;烧结时间对0.67MgO-0.33B_2O_3陶瓷的品质因子Q·f值具有极大的影响;在1 330℃的空气中烧结1h时,得到最高的品质因子Q·f值为270 200GHz,介电常数为7.6。

Effect of Fe_2O_3 Loading Amount on Catalytic Properties of Monolithic Fe_2O_3/Ce_(0.67)Zr_(0.33)O_2-Al_2O_3 Catalyst for Methane Combustion

Ce0.67Zr0.33O2-Al2O3 solid solution was prepared by the co-precipitation method. Fe2O3-based catalysts supported on the solid solution were obtained by the impregnation method. The article revealed that the optimal loading amount of Fe2O3 on Ce0.67Zr0.33 O2-Al2O3 in our experimental condition for catalytic combustion of methane was 8% （ mass fraction）. The prepared catalysts were characterized by BET, TPR, XRD analyses, and their catalytic activity was investigated after being calcined at 873 K and after being aged in water gas at 1273 K. When the loading amount of Fe203 was 8% （ mass fraction）, the catalyst held the highest activity, and the best temperature speciality and thermal stability. The complete-conversion temperature of methane for fresh and aged sample was 788 and 838 K, respectively. The range between the light-off temperature and the complete-conversion temperature was only 15 K. The characterization results of XRD indicated that Fe2O3 was well dispersed on the Ce0.67Zr0.33O2-Al2O3 matrix. The results of BET and TPR were in good harmony with the catalytic activity results.

Steam effects over Pd/Ce_(0.67)Zr_(0.33)O_2-Al_2O_3 three-way catalyst

Ceria-zirconia-alumina （CZA） solid solution was prepared by sol-gel method in the present study. 0.5 wt.% Pd supported on CZA was prepared by incipient wetness impregnation. The steam effects for CO and C3H8 oxidation, three-way catalytic activity and stoichiometric window property were studied. The light-off temperature of the CO oxidation reaction shifted to a lower temperature due to the water-gas shift （WGS） reactions. The oxidation of C3H8 was enhanced due to the steam reforming （SR） reactions. The steam promoted the C3H8 oxidation and NO reduction in three-way catalytic reaction. The amplitude of stoichiometric window was amplified by the addition of water to the feed stream.