稀土改性BaTiO3粉体的制备及其导电性分析

采用溶胶-凝胶法制备了纯BaTiO3粉体,并以La、Pr、Nd、Sm、Gd和Er等稀土元素通过液相掺杂、气相掺杂和液-气共掺3种不同的方式对其进行改性,以提高BaTiO3粉体的导电性.实验结果表明:各种稀土均可降低BaTiO3粉体的电阻率,效果最好的是Sm.不同掺杂方式中液-气共掺的效果最好,通过液相掺杂、气相掺杂和液-气共掺,BaTiO2粉体的电阻率由4.30×109Ω·m分别降至2.38×105,4.34×104和35.4 Ω·m.XRD、SEM、FTIR分析表明.液相掺杂时进入BaTiO3粉体的稀土元素主要集中在晶界处,而气相掺杂后稀土元素主要进入晶格内部,可能取代了Ti4+在晶格中的位置.半径较小的稀土元素更容易迁移而偏离钛氧八面体的中心位置,由此导致稀土掺杂后BaTiO3粉体的电阻率显著降低.     

BaPbO3与BaTiO3多晶态陶瓷缺陷结构对比

BaPbO，是具有类金属导电特性的钙钛矿结构导电陶瓷，其晶体结构由Ba2＋和O^2-离子紧密堆积形成，pb^4＋离子占据由O^2-离子形成的八面体空隙。BaTiO3同为钙钛矿结构的陶瓷材料，由Ba^2＋和O^2-离子紧密堆积形成，Ti^4＋离子占据由O^2-离子形成的八面体空隙。BaPbO3和BaTiO3的A位离子相同,B位离子都为可变价离子。     

低温合成四方相BaTiO3及其压电催化性能

基于淀粉糊化机制低温合成了四方相BaTiO₃粉体。采用扫描电子显微镜、透射电子显微镜、X射线衍射、傅里叶变换红外光谱、紫外可见吸收光谱、X射线光电子能谱对合成粉体的形貌、物相进行表征;在超声条件下,以系列典型染料为降解对象测试BaTiO₃压电催化性能。结果显示,煅烧温度为600℃时即可获得四方相BaTiO₃粉体,且随着温度的提升,结晶度逐渐增加;当煅烧温度为700℃时,合成的BaTiO₃粉体尺寸分布均匀,分散度良好,呈现类立方体状;在超声驱动下,BaTiO₃降解罗丹明B、刚果红、甲基橙染料时均展现出良好的效果,反应速率常数分别为1.090×10^-2、1.113×10^-2、1.084×10^-2 min^-1,并以降解刚果红为对象揭示其压电催化的机理,即空穴和超氧自由基是降解过程中的主要反应物质。     

魔方状微纳结构BaTiO3的制备及其压电催化性能

在简单溶剂热条件下,通过控制钡、钛物质的量之比制备了魔方状微纳结构BaTiO₃粉体,并以5 mg·L^-1罗丹明B(RhB)溶液为降解对象测试其压电催化性能。采用扫描电子显微镜、X射线衍射、傅里叶变换红外光谱对所制备粉体的物化性质进行详细表征,并测试其压电、光催化活性及循环稳定性。结果表明,钡、钛物质的量之比为1∶1时,合成的粉体为由立方体组装而成的魔方状四方相结构的BaTiO₃。在40 kHz、360 W的超声条件下,180 min内的降解率达90%,5次循环后的降解率为79.7%,变化率为11.4%,优于其光催化性能,具备优异的压电催化活性及循环稳定性。     

魔方状微纳结构BaTiO3的制备及其压电催化性能

在简单溶剂热条件下,通过控制钡、钛物质的量之比制备了魔方状微纳结构BaTiO₃粉体,并以5 mg·L^-1罗丹明B (RhB)溶液为降解对象测试其压电催化性能。采用扫描电子显微镜、X射线衍射、傅里叶变换红外光谱对所制备粉体的物化性质进行详细表征,并测试其压电、光催化活性及循环稳定性。结果表明,钡、钛物质的量之比为1∶1时,合成的粉体为由立方体组装而成的魔方状四方相结构的BaTiO₃。在40 kHz、360 W的超声条件下,180 min内的降解率达90%,5次循环后的降解率为79.7%,变化率为11.4%,优于其光催化性能,具备优异的压电催化活性及循环稳定性。     

溶胶凝胶法制备Nd2O3改性钛酸钡陶瓷的研究

The technological condition for the preparation of BaTiO₃ ceramics doped with Nd₂O₃ by Sol-Gel was deter-mined through orthogonal experiment. When n_Ba(Ac)2∶n_Ti(OC4H9)4∶n_Nd2O3∶n_{CH3(CH2)2CH2OH}∶n_H2O=1.00∶1.00∶0.003∶7.30∶37.04, pH=3.5,T=25℃,the light-yellow-transparent-stable solution and thorough transparent gel was generat-ed, the transforming time of solution to gel was 25h. The crystal structure and particle size of BaTiO₃ ceramics doped with Nd₂O₃ were studied by SEM and X-ray respectively, the type of the crystal was tetragonal, the particle size was about 24.7nm. The dielectric constant (ε) and dielectric loss (tanδ) of BaTiO₃ ceramics doped with Nd₂O₃ were determined between 10⁴～10⁶Hz, and the results showed that the dielectric constant was increased obviously, the dielectric loss was decreased clear and the resistivity (ρ_V) was also decreased noticeably.     

熔盐法包覆BaTiO3及其电性能

通过熔盐法,将MgTiO3薄膜均匀地包覆在钛酸钡颗粒表面,。形成芯壳结构,包覆机理是在MgCl2的熔盐状态（800度）下,Mg^2 取代BaTiO3中的Ba2 离子,表面生成MgTiO3薄膜,薄膜厚度约20nm,采用TEM,XRD验证了MgTiO3的包覆,包覆粉末经烧成瓷后,具有良好的高频性能,在1MHz-800MHz的频率范围内,介电常数恒定为130。     

稀土对BaTiO3陶瓷的气相化学热扩渗及其电性能研究

采用气相法对钛酸钡陶瓷扩渗稀土元素，稀土扩渗使BaTiO₃陶瓷的电性能发生了显著变化。室温电阻率明显下降，从4.3×10⁹Ω·m变为4.84Ω·m;随着频率增大和温度升高，交流电导逐渐增大，BaTiO₃陶瓷的导电性更强。稀土扩渗使BaTiO₃陶瓷的介电常数明显增加，尤其在低频下增加显著;介电常数随温度的变化呈明显的PTC效应，并使BaTiO₃陶瓷的居里温度升高为124.9℃。经XRD分析，扩渗的稀土元素并没有进入BaTiO₃陶瓷的晶格中，而是存在于晶界上。经XPS测试分析，稀土扩渗后的BaTiO₃陶瓷中钡、钛、稀土等都存在着不同程度的变价，因而导致了BaTiO₃陶瓷电阻率的降低。TG-DTA曲线分析表明，稀土扩渗后的BaTiO₃陶瓷有较好的高温热稳定性。     

Nd2O3添加量对BaTiO3陶瓷介电性能的影响

BaTiO₃ ceramics doped with Nd₂O₃(the additive content was respectively 0.001,0.002,0.003,0.005,0.01,0.03mol)were prepared by Sol-Gel method. Effects of Nd₂O₃ contents on the dielectric constant (ε), the dielectric loss (tanδ) ,the Curie-temperature (T_C) and the resistivity (ρ) of BaTiO₃ ceramic were studied. When Nd₂O₃ content was 0.001mol and 0.002mol, the dielectric constant was increased obviously, but the dielectric loss was also increased. When Nd₂O₃ content was 0.003mol, the dielectric constant was increased, and the dielectric loss was decreased, which was suitable for application in condenser. The resistivity was decreased obviously with the increasing of Nd₂O₃ contents, the resistivity was the smallest when Nd₂O₃ content was 0.001mol. The Curie-temperature was also decreased with the increasing of Nd₂O₃ contents.     

Grain size modulation on BaTiO3 nanoparticles synthesized at room temperature

A new method is developed to synthesize massive BaTiO₃ nanoparticles directly at room temperature. With this method, the synthesis efficiency is improved and mass preparation can be realized. Also, the grain size of the as-prepared nanoparticles can be modulated from several nanometers to 40 nm through proper selection of the content of water and the alkanol chain length of the dispersant. It was found that smaller water content and a larger alkanol chain length of the dispersant will lead to a finer grain size. The mechanisms of the grain size modulation of BaTiO₃ nanoparticles are also discussed.     

复合多铁材料NiFe2O4/BaTiO3的制备及性能

采用溶胶-凝胶与固相反应相结合的方法制备了xNiFe2O4/(1-x)BaTiO3(x=0.1,0.2,0.3,0.4,0.5,0.6)系列复合多铁材料.X射线衍射(XRD)结果表明,复合材料中只含有钙钛矿结构的BaTiO3和尖晶石结构的NiFe2O4,说明共烧过程中两者未发生明显的化学反应,铁电相与铁磁相共存.扫描电子显微镜(SEM)观测结果表明材料内部是异质结构的,高分辨透射电子显微镜(HRTEM)观测结果进一步说明了NiFe2 O4和BaTiO3共存,并且在两种物质的接触处能够看到清晰的界面.这种由BaTiO3和NiFe2 O4组成的复合材料对外同时表现出铁电性和铁磁性.电滞回线结果表明,该复合材料具有铁电性,但存在着一定的漏电.介电频谱表明材料的介电常数随着频率的升高而下降,在低频下达到定值,并且铁磁相的含量对材料的介电性有影响.磁性能测试结果表明材料的磁性源于NiFe2O4,并且磁性随着NiFe2O4含量的增加而增强.     

BaTiO3/ IPNs的制备及介电性能与阻尼性能的相关性

BaTiO₃/ Interpenetrating Polymer Networks (IPNs) composites were prepared by combination of BaTiO₃nanocrystal in tetragonal system and polyurethane(PU) / unsaturated polyester (UP) interpenetrating polymer networks (IPNs). The tetragonal nanocrystalline BaTiO₃was obtained by hydrothermal process and calcination at 1 200 ℃. The prepared materials were polarized with high voltage and small current, and protected by silicon oil. The morphology of BaTiO₃/ IPNs and the effect of combination of BaTiO₃on the damping behavior of IPNs were studied. The relationship between damping performance and dielectric charater was also discussed in terms of dielectric constant and dielectric loss measured. The results show that the areas under loss modulus (E″) and the values of loss factors (tanδ) were both increased by combination of BaTiO₃into IPNs system. The maximum value of E″ increased above 100 MPa compared with pure IPNs and the extent increased more remarkably after polarizing process. The main and shoulder peak of tanδ curves both moved toward higher temperature ranges, and the temperature ranges of tanδ>0.3 was higher than 100 ℃. Moreover, through polarizing process, the composites exhibited synergistic action caused by elastomeric damping, interfacial abrasive damping and piezoelectric damping mechanisms. The relationship study of damping property and dielectric characters showed that the temperature ranges exhibited excellent consistency of maximum dielectric loss and modulus with damping loss factor.     

Preparation, crystal structure and electrorheological performance of nano-sized particle materials containing ZrO2

A series of nano-sized particle materials containing ZrO₂ was prepared and their compositions were determined by elemental analysis and thermogravimetric analysis (TGA). The effect of particle size and crystal structure type (lattice and space group) on the ER performance of these materials was investigated by X-ray diffraction (XRD) analysis, Raman spectra, the particle size analysis and rheological measurement. Their electrorheological (ER) effects show that the ER activities of the ZrO₂ materials doped with rare earth (RE=Y, La, Ce, Gd, Tb), whose grain sizes were less than that of pure ZrO₂, were lower than that of pure ZrO₂, which belongs to the tetragonal crystal system. The ER activity of Y₂O₃-ZrO₂ is the strongest among all the RE-doped ZrO₂ materials. The ER activity of the tetragonal phase ZrO₂ is higher than that of the monoclinic phase ZrO₂.     

B2O3-Bi2O3-ZnO-Al2O3玻璃助烧剂对BaTiO3陶瓷烧结条件、晶体结构和介电性能的影响

通过调节B₂O₃‐Bi₂O₃‐ZnO‐Al₂O₃(BBZA)玻璃的添加量研究其对钛酸钡(BaTiO₃)陶瓷烧结条件、晶体结构和介电性能的影响。结果表明：添加适量的BBZA玻璃能够有效地将BaTiO₃陶瓷烧结温度由1350℃降至950℃,并使其致密化。同时,添加BBZA玻璃后,BaTiO₃的晶体结构随着烧结温度的升高而发生转变(立方相→四方相)。另外,BBZA玻璃的引入使BaTiO₃陶瓷的居里峰得到了有效的抑制和拓宽。陶瓷微观形貌显示,玻璃相均匀分布在BaTiO₃晶粒表面。优化的BaTiO₃陶瓷制备条件如下：BBZA添加量(质量分数)为2.0%,烧结温度为950℃。在该条件下制备的BaTiO₃陶瓷介电常数达到1364,介电损耗低至1.2%。     

B2O3-Bi2O3-ZnO-Al2O3玻璃助烧剂对BaTiO3陶瓷烧结条件、晶体结构和介电性能的影响

通过调节B₂O₃-Bi₂O₃-ZnO-Al₂O₃(BBZA)玻璃的添加量研究其对钛酸钡(BaTiO₃)陶瓷烧结条件、晶体结构和介电性能的影响。结果表明：添加适量的BBZA玻璃能够有效地将BaTiO₃陶瓷烧结温度由1 350℃降至950℃,并使其致密化。同时,添加BBZA玻璃后,BaTiO₃的晶体结构随着烧结温度的升高而发生转变(立方相→四方相)。另外,BBZA玻璃的引入使BaTiO₃陶瓷的居里峰得到了有效的抑制和拓宽。陶瓷微观形貌显示,玻璃相均匀分布在BaTiO₃晶粒表面。优化的BaTiO₃陶瓷制备条件如下：BBZA添加量(质量分数)为2.0%,烧结温度为950℃。在该条件下制备的BaTiO₃陶瓷介电常数达到1 364,介电损耗低至1.2%。     

施主掺杂对BaTiO3钙钛矿半导体纳米晶光催化性能的影响

以沉淀法制备的Cu_2O为牺牲模板剂,采用水热法制备La施主掺杂的BaTiO_3钙钛矿半导体纳米晶,借助X射线衍射(XRD)、透射电子显微镜(TEM)、高分辨透射电镜(HRTEM)、X射线光电子能谱((XPS)、扫描电子显微镜(SEM)、紫外-可见漫反射光谱(UV-Vis DRS)表征La掺杂的BaTiO_3晶的物相、微观形貌及光催化性能。结果表明,La掺杂BaTiO_3构建了晶体缺陷,有效提高了BaTiO_3的光催化性能。当掺杂量为4%(w/w)时,样品的光催化性能最好,在可见光照射360 min后,对4-硝基苯酚溶液的降解率可达到93.2%。该催化剂5次循环后的活性仍然大于86.7%,表明La施主掺杂的BaTiO_3是一种有效的可见光催化剂。     

NiS和Pt双助催化剂增强BaTiO3纳米纤维光催化制氢性能

采用静电纺丝、水热和光沉积的方法制备了一种以Pt和NiS为助催化剂的BaTiO₃/Pt/NiS双异质结光催化剂。优化后的BaTiO₃/Pt/NiS样品的制氢速率最高为489 μmol·h^-1·g^-1,是纯物质BaTiO₃的2.5倍。这主要归因于BaTiO₃与Pt之间形成的肖特基结促进了光生电子的快速转移,以及BaTiO₃与NiS之间构建的p-n结,实现了对光生空穴的高效捕获。光电化学测试结果进一步证实了BaTiO₃/Pt/NiS异质结光催化剂中的光生电子和空穴被高效分离,从而具有更高的分解水制氢性能。     

Photoluminescence properties of a novel phosphor, Na3La9O3(BO3)8:RE(RE=Eu,Tb)

The new oxyborate phosphors, Na₃La₉O₃(BO₃)₈:Eu³⁺ (NLBO:Eu) and Na₃La₉O₃(BO₃)₈:Tb³⁺ (NLBO:Tb) were prepared by solid-state reactions. The photoluminescence characteristics under UV excitation were investigated. The dominated emission of Eu³⁺ corresponding to the electric dipole transition ⁵D₀→⁷F₂ is located at 613 nm and bright green luminescence of NLBO:Tb attributed to the transition ⁵D₄→⁷F₅ is centered at 544 nm. The concentration dependence of the emission intensity showed that the optimum doping concentration of Eu and Tb is 30% and 10%, respectively.     

Effect of titanium dioxide solubility on the formation of BaTiO3 nanoparticles in supercritical water

Fine BaTiO₃ nanoparticles were prepared by hydrothermal synthesis under supercritical condition (400 °C and 30 MPa) from mixture of barium hydroxide and titanium dioxide as starting precursors. First, conditions for synthesizing BaTiO₃ were examined by using batch reactors. High pH condition, pH > 13, is necessary to obtain phase pure BaTiO₃. The reason was discussed based on the solubility of titanium dioxide, which that dissolution–recrystallization process is essential for the synthesis of BaTiO₃ nanoparticles. Rapid heating of the starting precursors by mixing with high temperature water in a flow reactor is effective to synthesize smaller size and narrower particle size distribution for the BaTiO₃ nanoparticles, compared with the case of slow heating with a batch reactor.     

石墨相氮化碳/二氧化锡复合材料的制备及光催化性能

采用热聚合法和水热法相结合的方法制备了g-C_3N_4/SnO_2复合光催化剂。利用XRD、SEM、TEM、FT-IR和UV-Vis DRS等多种测试手段对所得样品的物相结构、微观形貌和吸光特性等进行了表征。结果表明,异质结构复合光催化剂的最大光吸收边位置相对纯相SnO_2发生了明显的红移,并且SnO_2颗粒均匀分布于g-C_3N_4表面,其中最优组分(50%-g-C_3N_4/SnO_2)光催化降解染料罗丹明B(RhB)的效率达到了纯相g-C_3N_4的3.78倍。