低温环境下PbTiO_(3)钙钛矿晶粒的演化过程

利用透射电子显微镜研究了PbTiO_(3)钙钛矿在低温条件下的晶体结构及晶粒演化过程。结果表明:低温条件下,PbTiO_(3)钙钛矿未出现明显的相转变;在电子束辐照条件下,PbTiO_(3)晶体出现细晶化现象,说明电子束对其结构变化存在诱导作用;在室温和低温环境下,PbTiO_(3)晶体均未产生位错缺陷,且低温环境使晶粒细化过程变慢;电子辐照作用使材料的表面能变大,导致晶粒尺寸变小,从而出现细晶化现象。

钙钛矿相PbTiO_(3)-CdS微米片复合光催化剂的制备及其分解水产氢性能研究

为实现钙钛矿基半导体复合材料的高效光解水产氢,以钙钛矿相钛酸铅(PbTiO_(3),PTO)微米片为衬底,采用水热法制备钙钛矿相钛酸铅-硫化镉(PTO-CdS)微米片复合材料。探究水热温度和CdS负载量对复合材料的形貌及物相的影响;通过TEM、XPS及UV-Vis对复合材料的微结构、表面化学状态和光吸收特性进行表征;通过光解水产氢实验对复合材料的光催化活性进行测定和分析。结果表明:水热条件下,钙钛矿相PTO微米片对CdS的生长具有显著调控作用,与单独生长时尺寸约3μm的枝杈晶形貌不同,PTO-CdS微米片复合材料中的CdS为三角形纳米颗粒,尺寸约50 nm,均匀分散地生长在PTO微米片表面,且PTO与CdS之间界面清晰;水热温度和CdS负载量对复合材料的形貌和物相影响显著,水热温度为160℃、CdS负载量为6%时制备的PTO-CdS微米片复合材料尺寸均一,负载均匀,纯度和结晶度良好;PTO-CdS微米片复合材料在模拟太阳光下表现出光催化分解水产氢特性,其中PTO-CdS-6%的产氢速率达到141.45μmol/h/g,是PTO微米片产氢效率的17倍,是CdS枝杈晶产氢效率的53倍。该研究为高效钙钛矿基半导体复合光催化剂的设计提供了思路。

Ni,Cu,Zn掺杂四方相PbTiO_(3)力学性能、电子结构与光学性质的第一性原理研究

采用第一性原理研究了四方相钙钛矿PbTiO_(3)以及Ni、Cu、Zn掺杂PbTiO_(3)的力学性能、电子结构和光学性质。力学性能计算结果表明,Ni掺杂PbTiO_(3)的体积模量、剪切模量及弹性模量在三种掺杂体系中最大。Ni掺杂体系德拜温度最高。G/B为材料的脆、韧性判据,Zn掺杂PbTiO_(3)的G/B值最大,说明化学键定向性最高。Ni、Zn掺杂体系的G/B范围为0.56<G/B<1.75,均为脆性材料,而本征PbTiO_(3)和Cu掺杂体系G/B值小于0.56,均为韧性材料。通过电子结构分析,发现掺杂体系相比于本征体系带隙变窄,跃迁能量减小。Ni掺入使得PbTiO_(3)费米能级处出现杂质能级,而Cu、Zn掺杂PbTiO_(3)价带顶上移,费米能级进入价带,使得Cu、Zn掺杂PbTiO_(3)呈现p型导电特性。从复介电函数、光学反射谱和吸收谱分析中发现,掺杂体系的静介电常数相较于本征体系有所提升。Ni、Cu、Zn的掺杂使得PbTiO_(3)吸收范围扩展到红外波段,且增强了可见光波段的吸收强度,Cu掺杂PbTiO_(3)材料的光催化特性在本征PbTiO_(3)和三种单掺PbTiO_(3)材料中是最好的。

Structure,ferroelectric,and enhanced fatigue properties of sol–gel-processed new Bi-based perovskite thin films of Bi(Cu_(1/2)Ti_(1/2))O_(3)–PbTiO_(3)

Bi-based perovskite ferroelectric thin films have wide applications in electronic devices due to their excellent ferroelectric properties.New Bi-based perovskite thin films Bi(Cu_(1/2)Ti_(1/2))O_(3)–PbTiO_(3)(BCT–PT) are deposited on Pt(111)/Ti/SiO_(2)/Si substrates in the present study by the traditional sol–gel method.Their structures and related ferroelectric and fatigue characteristics are studied in-depth.The BCT–PT thin films exhibit good crystallization within the phase-pure perovskite structure,besides,they have a predominant(100) orientation together with a dense and homogeneous microstructure.The remnant polarization(2P_(r)) values at 30 μC/cm^(2) and 16 μC/cm^(2) are observed in 0.1BCT–0.9PT and 0.2BCT–0.8PT thin films,respectively.More intriguingly,although the polarization values are not so high,0.2BCT–0.8PT thin films show outstanding polarization fatigue properties,with a high switchable polarization of 93.6% of the starting values after 10^(8) cycles,indicating promising applications in ferroelectric memories.

水热合成PbTiO_(3)-TiO_(2)微米片复合材料及其光催化降解有机物的应用

为探究钙钛矿氧化物基复合材料的光催化性能,以具有规则暴露面的钙钛矿相PbTiO_(3)微米片为衬底,通过水热法制备了一系列不同负载浓度的钙钛矿相PbTiO_(3)-TiO_(2)微米片复合材料,通过XRD、SEM、BET、XPS和UV-Vis对所制备样品进行了系统的微结构表征及光学特性分析,并测定PbTiO_(3)-TiO_(2)微米片复合材料在不同光源辐照下对30 mg/L罗丹明B(Rh B)水溶液的催化降解性质。结果表明:TiO_(2)单晶颗粒在钙钛矿相PbTiO_(3)微米片表面呈现团聚生长,颗粒尺寸为30~50 nm;随着反应物中钛酸丁酯(TBOT)的增加,钙钛矿相PbTiO_(3)微米片表面生长的TiO_(2)量增多;PbTiO_(3)-TiO_(2)微米片复合材料对Rh B水溶液均表现出光催化降解特性,其中以加入0.6 mL TBOT制备的复合材料(S2)催化性能最优,在模拟太阳光辐照下于90 min内对Rh B降解效率可达95.80%,在可见光照射下于180 min内对Rh B降解效率为81.86%;PbTiO_(3)-TiO_(2)微米片复合材料的禁带宽度减小,有利于光生载流子的形成,从而有效提高了其光催化性能,也为半导体复合光催化剂的材料设计和性能优化提供了支持。

硼氮掺杂对立方PbTiO_(3)电子结构和光学性质影响的第一性原理研究

钛酸铅(PTO)因具有优异的铁电、压电特性及光学性质而备受关注.但B、N掺杂对顺电相PTO电子结构和光学性质的影响还不明确,因此,利用第一性原理对立方PTO开展准确的性质预测尤为必要.本文采用广义梯度近似的PBE泛函(GGA-PBE)和杂化泛函(HSE06)研究了B、N替位掺杂(B_(O)、N_(O))和O空位(V O)对PTO的基态性质、电子结构和光学性质的影响.研究表明:贫氧态的PTO比富氧态更容易形成杂质缺陷,且N_(O)缺陷最难形成.当B_(O)、N_(O)缺陷存在时,PTO的价带顶和导带底向低能量方向移动,在两者之间出现杂质能级,使其导电性能提高且含B_(O)的PTO为间接带隙半导体,而含N_(O)的PTO为直接带隙半导体.N_(O)体系在波长大约为230 nm处有最大吸收峰,该峰主要源于O 2p和Ti 3d之间的电子跃迁,且N_(O)体系对可见光的吸收能力最强,有望提高PTO的光催化能力.

Pb(In_(1/2)Nb_(1/2))O_(3)-Pb(Mg_(1/3)Nb_(2/3))O_(3)-PbTiO_(3)弛豫铁电薄膜厚度尺寸效应研究

新一代弛豫铁电薄膜Pb(In_(1/2)Nb_(1/2))O_(3)-Pb(Mg_(1/3)Nb_(2/3))O_(3)-PbTiO_(3)(PIMNT)因兼具优异的电学性能与高的相变温度,在国内外获得广泛关注.为了探究不同薄膜厚度对PIMNT薄膜的结构及电学性能的影响,通过溶胶凝胶法制备了150 nm~1μm不同厚度的PIMNT薄膜,对其形貌结构以及电学性能进行了对比研究,在此基础上进一步研究了极化对其电学性能的影响.实验结果表明:随着厚度的增加,薄膜介电常数先增加后略有降低,剩余极化强度先增大后减小,矫顽场逐渐增大;在极化电压为18 V、极化温度和时间分别为100℃和5 min时,1μm厚度PIMNT薄膜的介电常数和损耗在100 Hz下分别为1009和0.022,室温下的热释电系数达6.85×10^(-4) C∙m^(-2)∙K^(-1),是目前主流的锆钛酸铅(PZT)薄膜的3倍左右.

EFFECT OF Ni CRYSTAL SIZE DISTRIBUTION ON THE ANTICOKING BEHAVIOR OF La-MODIFIED Ni/α-Al_2O_3 CATALYSTS

The crystal size distribution（CSD）was determined with small angle X-ray scattering technique.Theanticoking property of Ni-catalysts was investigated with the steam reforming of n-heptane in a TG-monitoredflow reactor.The results of this study show that the rate of coking on the supported Ni-catalysts depends main-ly on the percentage content of the large size fraction（25-70nm）of Ni-crystallites,and that the dispersion ofNi-crystallites and the anticoking property of the Ni/α-Al2O3 catalysts were promoted obviously by theLa2O3-modification method.The variation of the Ni-CSD and the anticoking property of the catalysts were fur-ther tested through different periods of hydrothermal treatment.It is found that the content of the largeNi-crystal size fraction and the coking rate pass correspondingly through a maximum.

PbTiO_3薄膜的非线性光学性质研究

用射频磁控溅射系统在α Al2O3衬底上制备了具有钙钛矿结构的PbTiO3薄膜. 用光学透射测量方法得到了该薄膜材料的基本光学常数 (带隙、线性折射率、线性吸收系数). 利用Z 扫描技术确定的非线性折射系数n2的符号及大小为-2. 8×10-7 esu,双光子吸收系数为 51. 8cm/GW. 这些结果表明PbTiO3铁电薄膜在非线性光学上具有潜在的应用前景.

压力对PbTiO_(3)结构和热物性质影响的第一性原理研究

PbTiO_(3)是一种重要的铁电功能材料,但压力对其结构、稳定性、力学和热力学性能的影响尚不明确,从而限制了其在电子通讯领域的应用。本研究采用基于密度泛函理论的第一性原理方法,研究了压力下四方铁电相钛酸铅(TP-PTO)、立方顺电相钛酸铅(CP-PTO)、四方前驱体相钛酸铅(PP-PTO)结构和热物性质。研究发现,三种结构可压缩性由大到小依次为PP-PTO>TP-PTO>CP-PTO。能带结构和态密度均表明PTO在研究的压力范围内未发生相变。PTO带隙随着压力增大逐渐降低,TP-PTO在20 GPa由间接带隙半导体转变为直接带隙半导体,其余两相在压力下恒为直接带隙半导体。PTO在0~30 Gpa范围力学稳定,且具有各向异性,其综合力学性能随着压力的增加而增强,各向异性则是先降低后升高。通过准谐德拜近似理论研究了温度和压力对PTO德拜温度、熵、热容的影响,结果表明德拜温度随着温度上升而下降,随着压力增大而上升,反映出共价键强度依次为CP-PTO>TP-PTO>PP-PTO。熵和热容随着温度上升而上升,随着压力的增大而下降。

Theoretical Study of La , Ca modified and Pure PbTiO_3 Nanocrystals

Quantum chemistry calculations of La , Ca modified and pure PbTiO\-3 nanocrystals were carried out by means of the cluster model in DFT DVM calculating program on which the regularity of the charge distribution was drawn. The analysis of the density of state(DOS) showed that when the cubic phase PbTiO 3 nanocrystal is changed into tetragonal phase, the interaction among Ti 3d , O 2p , and Pb 6p atomic orbitals causes the dipole moment and spontaneous polarization on the axis of the crystal, which resulted in the appearance of ferroelectric phase. At the same time, the dipole moment and the intensity of the spontaneous polarization were calculated as well.

Hydrothermal Synthesis and Characterization of Perovskite PbTiO_(3) Powders from Different Precursors

Perovskite type of PbTiO 3 fine powders which are homogeneous in physic chemical properties has been hydrothermally synthesized from the different precursors. The borderline reaction conditions, such as temperature and time, for the formation of PbTiO 3 were established and the effect of the precursor on the particle properties was investigated. As a precursor, Pb Ti alko carbonate xerogel dispersed in 2 methoxyethanol was found to be effective for the synthesis of the PbTiO 3 powders with a lower agglomeration and a simple mode of particle size.

Gaseous Penetration of Pr into PbTiO_3 Ceramics and Their Electric Properties

The gaseous Pr-penetration is a new method to modify ceramics, which is expected to be a promising method for producing new conductor ceramic materials. The gaseous penetration of Pr into PbTiO_3 ceramics and their improved electric properties were reported. Through XRD, EPMA and SEM analysis,it is confirmed that the gaseous penetration makes Pr enter into PbTiO_3 ceramics, and the new compound of Pr_2Ti_2O_7 is formed by the penetration of Pr in the gaseous state. The formed new Pr_2Ti_2O_7-PbTiO_3 ceramic materials have a significant change in electric properties. The room temperature resistivity decreases from 2.0×10^(10) Ω·m to 9.487 Ω·m. The grain resistance and the grain boundary resistance decrease with increase in temperature, and the PTCR effect disappears. The tendency of transition to a conductive body is manifest.

PbTiO_(3)-CdS纳米复合材料的制备及其微结构和光催化性能

为探究铁电表面对半导体氧化物结构和性能的影响,以单晶钙钛矿PbTiO_(3)纳米片为衬底,通过简单水热法调控CdS纳米晶的生长;通过成分设计,制备了一系列不同负载浓度的PbTiO_(3)-CdS纳米复合材料,并对其微结构和光催化性能进行了系统分析。结果表明:在所制得的产物中,CdS纳米颗粒选择性生长在PbTiO_(3)纳米片表面,其形貌受到PbTiO_(3)纳米片暴露面的影响,PbTiO_(3)衬底与CdS纳米颗粒之间具有清晰的界面;起始反应物浓度与水热反应时间也显著影响CdS的晶体形态。光催化研究表明,所制备的PbTiO_(3)-CdS纳米复合材料对10 mg/L罗丹明B水溶液具有显著的降解效应,随着CdS负载浓度的增加,其降解效率增加,其中质量分数3%的PbTiO_(3)-CdS样品在120 min内对10 mg/L罗丹明B水溶液的降解率可以达到72%。

基于PbTiO_(3)表面原位纳米酶的生物传感平台用于NF-κB p50检测

该文介绍了一种通过将K_(4)Fe(CN)_(6)配位到PbTiO_(3)表面获得原位纳米酶的新策略。利用脱氧核糖核苷5′-单磷酸(dNMP)在PbTiO_(3)表面的结合,阻止K_(4)Fe(CN)_(6)在PbTiO_(3)表面原位形成纳米酶,构建了基于纳米酶的生物传感平台。当NF-κB p50存在时,dNMP难以产生,K_(4)Fe(CN)_(6)得以顺利结合到PbTiO_(3)表面,并在其表面自发形成纳米酶,催化TMB氧化以定量检测NF-κB p50。实验表明,该方法对NF-κB p50的检测线性范围为3.0 pmol/L~10 nmol/L,检出限(S/N=3)为1.2 pmol/L,对实际样品的加标回收率为99.1%~102%,相对标准偏差不大于5.3%。该方法为NF-κB p50的检测提供了一种无标记、无固定且具有信号放大作用的新策略,不仅灵敏度高、选择性好、操作简便,且在实际样品检测中具有潜在的应用价值。

Preparation of PbTiO_3 Conductive Powders and Coatings

La2O3 and Ce2O3 were penetrated into PbTiO3 to obtain conductive powders, and then they were mixed with polyurethane and butyl acetate to prepare conductive coatings. The results showed that the electric property of modified PbTiO3 powders was improved by penetration of La2O3 and Ce2O3. XRD patterns showed that some new compounds such as La2Ti6O15, CeTi21O38 and Pb0.634La0.209Ti0.948O2.284 were formed, which led to the rapid increase of conductivity. The resistivity of modified PbTiO3 powders decreased to 3.88 Ω·m. The coatings using modified PbTiO3 powders as fillings also had a good conductivity. When the PbTiO3 powders were 10% and antisettle agent (bentonite) content was 0.50%, and mass ratio between polyurethane and butyl acetate was 1.05, the surface resistivity of the coatings fell down to 1.3×108 Ω·m. This kind of conductive coatings could be used in electromagnetic shielding.

BiFeO_(3)掺杂Pb(In_(1/2)Nb_(1/2))O_(3)-Pb(Mg1/3Nb2/3)O_(3)-PbTiO_(3)陶瓷的制备与磁电性能研究

以固相合成法制备了铁酸铋(BiFeO_(3),简称BFO)掺杂的铌铟酸铅-铌镁酸铅-钛酸铅(Pb(In_(1/2)Nb_(1/2))O_(3)-Pb(Mg_(1/3)Nb_(2/3))O_(3)-PbTiO_(3),简称PIN-PMN-PT)多铁性陶瓷材料,X射线衍射(XRD)测试结果表明:样品具有钙钛矿结构,电滞回线显示其铁电性良好,剩余极化值(Pr)可达18μC·cm^(-2).由于BiFeO_(3)掺杂后,样品电矩减小,氧空位增多,使其铁电畴翻转困难,样品的电性能略有下降,但是其磁性能随BiFeO_(3)掺入量的增加而逐渐增强,且样品居里温度(Tm)为200℃左右.该材料在电磁学领域有望成为具有应用前景的多铁性材料.

超快激光制备高频1-3型PIN-PMN-PT复合材料超声换能器

与其他压电材料相比,1-3型压电单晶复合材料具有优异的压电性能和更匹配的声学特性,更有利于制备出性能优异的超声换能器。该文通过有限元软件COMSOL对复合材料的振动模态及阻抗特性进行了系统的研究,同时采用皮秒激光制备了高频1-3型Pb(In_(1/2)Nb_(1/2))O_(3)-Pb(Mg_(1/3)Nb_(2/3))O_(3)-PbTiO_(3)(PIN-PMN-PT)铁电单晶/环氧树脂复合材料,并进行了性能表征。该1-3复合材料机电耦合系数为0.65,声阻抗为19.96 MRayls。该复合材料可用于制备高频超声换能器,结果表明,换能器中心频率为17.68 MHz,-6 dB带宽为84.38%,插入损耗为-25.4 dB。

硬性BSPT基高温压电陶瓷温度稳定性研究

采用固相合成法在1125~1175℃烧结范围内制备了0.15BiScO_(3)-0.85(Pb_(0.88)Bi_(0.08))(Ti^(0.97)Mn_(0.03))O_(3)(BSPT-Mn)高温压电陶瓷。所有样品均为纯相,晶粒尺寸分布符合正态规律,掺杂元素均匀,未发现明显的富集现象。研究表明,在1150℃烧结制备的BSPT-Mn高温压电陶瓷的最大机械品质因数为1500.3,在484.4℃温度下压电常数为289.8 pC/N,压电性能良好。

四方铁电体顶点畴的原子尺度构型研究

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