Nonlinear dielectric behavior in three-component ferroelectric superlattices

Three-component ferroelectric superlattices consisting of alternating layers of SrTiO3, BaTiO3, and CaTiO3 (SBC) with variable interlayer thickness were fabricated on Pt(111)/TiO2/SiO2/Si (100) substrates by pulsed laser deposition. The presence of satellite reflections in x-ray-diffraction analysis and a periodic concentration of Sr, Ba, and Ca throughout the film in depth profile of secondary ion mass spectrometry analysis confirm the fabrication of superlattice structures. The Pr (remnant polarization) and Ps (saturation polarization) of SBC superlattice with 16.4-nm individual layer thickness (SBC16.4) were found to be around 4.96 and 34 μC/cm2, respectively. The dependence of polarization on individual layer thickness and lattice strain were studied in order to investigate the size dependence of the dielectric properties. The dielectric constant of these superlattices was found to be much higher than the individual component layers present in the superlattice configuration. The relatively higher tunability ( ∼ 55%) obtained around 300 K indicates that the superlattice is a potential electrically tunable material for microwave applications at room temperature. The enhanced dielectric properties were thus discussed in terms of the interfacial strain driven polar region due to high lattice mismatch and electrostatic coupling due to polarization mismatch between individual layers.

Improved microwave dielectric properties of (Mg1-(x+y)CaxLay)(Ti1-yAly)O3 ceramics

Phase-singular solids of the composition, (Mg1−(x+y) Cax Lay)(Ti1−yAly)O3 (x = 0 to 0.88; y = 0.05 to 0.35) having the cubic perovskite-type structure were prepared by the substitution of La3+ and Al3+ in equivalent quantities which brought about complete miscibility between MgTiO3 and CaTiO3. These ceramics showed relative permittivities of 16.5 to 50 (at 6 GHz) with increasing Ca content, high Q values of 10 000 to 30 000 and retained near-zero temperature coefficients in permittivity at optimum y values. Their dielectric characteristics are better accountable in terms of the positional disorder rather than the tolerance factor of perovskite structure.

Substrate conductivity dependent modulation of cell proliferation and differentiation in vitro

In designing and developing various biomaterials, the influence of substrate properties, like surface topography, stiffness and wettability on the cell functionality has been investigated widely. However, such study to probe into the influence of the substrate conductivity on cell fate processes is rather limited. In order to address this issue, spark plasma sintered HA-CaTiO3 (Hydroxyapatite-Calcium titanate) has been used as a model material system to showcase the effect of varying conductivity on cell functionality. Being electroactive in nature, mouse myoblast cells (C2C12) were selected as a model cell line in this study. It was inferred that myoblast adhesion/growth systematically increases with substrate conductivity due to CaTiO3 addition to HA. Importantly, parallel arrangement of myoblast cells on higher CaTiO3 containing substrates indicate that self-adjustable cell patterning can be achieved on conductive biomaterials. Furthermore, enhanced myoblast assembly and myotube formation were recorded after 5 days of serum starvation. Overall, the present study conclusively establishes the positive impact of the substrate conductivity towards cell proliferation and differentiation as well as confirms the efficacy of HA-CaTiO3 biocomposites as conductive platforms to facilitate the growth, orientation and fusion of myoblasts, even when cultured in the absence of external electric field.

Better early osteogenesis of electroconductive hydroxyapatite-calcium titanate composites in a rabbit animal model

In view of the fact that bone healing can be enhanced due to external electric field application, it is important to assess the influence of the implant conductivity on the bone regeneration in vivo. To address this issue, this study reports the in vivo biocompatibility property of multistage spark plasma sintered hydroxyapatite (HA)-80 wt % calcium titanate (CaTiO3) composites and monolithic HA, which have widely different conductivity property (14 orders of magnitude difference). The ability of bone regeneration was assessed by implantation in cylindrical femoral bone defects of rabbit animal model for varying time period of 1, 4, and 12 weeks. The overall assessment of the histology results suggests that the progressive healing of bone defects around HA-80 wt % CaTiO3 is associated with a better efficacy with respect to (w.r.t) early stage neobone formation, which is histomorphometrically around 140% higher than monolithic HA. Overall, this study demonstrates that the in vivo biocompatibility property of HA-80 wt % CaTiO3 with respect to local effects after 12 weeks of implantation is not compromised both qualitatively and quantitatively, and a comparison with control implant (HA) points toward the critical role of electrical conductivity on better early stage bone regeneration. (c) 2013 Wiley Periodicals, Inc. J Biomed Mater Res Part A: 102A: 842-851, 2014.

Twinning induced enhancement of fracture toughness in ultrafine grained Hydroxyapatite-Calcium Titanate composites

Despite being highly bioactive and biocompatible, the limitations of monolithic hydroxyapatite (HA) include extremely low fracture toughness, poor electrical conductivity. While addressing these issues, the present study demonstrates how CaTiO3 (CT) addition to HA can be utilized to obtain a combination of long crack fracture toughness (1.7 MPa m(1/2) SEVNB technique) and flexural strength of 98-155 MPa (3-point bending) and a moderate tensile strength (diametral compression) of 17-36 MPa. The enhancement in fracture resistance in spark plasma sintered HA-CT composites has been explained in reference to the observed twin morphology. TEM reveals the presence of twins in CT grains due to 1800 rotation about 101]. The measured properties along with our earlier reports on biocompatibility and electrical properties make HA-CT suitable for bone tissue engineering applications. When compared with other competing HA-based biocomposites, HA-CT composites are found to have a better combination of properties useful for medium load bearing implant applications. (C) 2015 Elsevier Ltd. All rights reserved.

场发射(FED)用荧光粉的研制与改性

场发射平板显示器（Field Emission Displays, FED）是一种新发展起来的平板显示器，由于其在亮度、视角、响应时间、工作温度范围、能耗等方面具有优良的特性，成为近年新型显示器研究的热点之一。为实现高效的FED红、绿、蓝全色显示，荧光粉在其中起着十分重要的作用。制备性能优良的场发射用彩色荧光粉是决定将来FED技术成功与否的关键因素之一。 本论文研究的内容包括场发射(FED)用荧光粉的研制和改性工作。在场发射(FED)用荧光粉研制方面，采用溶胶-凝胶方法，制备了一系列新型场发射(FED)用荧光粉，包括稀土离子激活的镓酸镧 [(LaGaO3: Re3+ (Re = Eu, Tb, Dy, Tm, Sm)]体系、铟酸钙[(CaIn2O4: Re3+ (Re = Eu, Pr, Tb, Dy,)]体系、铟酸锶[(SrIn2O4: Re3+ (Re = Pr, Tb, Dy)]体系、镓酸镥[Lu3Ga5O12:Re3+ (Re = Eu, Tb，Pr)]体系，并研究了Pr, Sm, Eu, Tb, Dy, Tm等稀土离子在这些基质中的光致发光、低压阴极射线发光性质和能量传递等性质。在荧光粉的改性方面，采用喷雾热解法制备了Sr2CeO4球形场发射用荧光粉，研究了喷雾前驱体溶液中，聚乙二醇浓度、金属离子浓度、烧结温度对形貌及发光性能的影响；采用溶胶－凝胶方法成功将SiO2表明包覆一层CaTiO3:Pr3+, Y3Al5O12:Ce3+/Tb3+荧光粉，得到单分散，球形形貌，分布均匀，具有核/壳结构的球形荧光粉；另外研究了不同的制备方法对Ga2O3:Dy3+荧光粉的发光性能的影响。所得样品用XRD、FTIR、SEM、TEM、漫反射光谱、光致发光(PL)光谱、荧光寿命曲线、低压阴极射线(CL)光谱等进行表征。 在紫外光激发下，稀土离子激活的镓酸镧彩色荧光粉有基质(LaGaO3)的发射和稀土离子(Eu3+, Tb3+, Dy3+, Tm3+, Sm3+)的特征发射，研究表明在基质和稀土离子之间存在能量传递，其能量传递效率因离子而异。在阴极射线激发下，样品仅有稀土离子(Eu3+, Tb3+, Dy3+, Tm3+, Sm3+)的特征发射。如：LaGaO3: Eu3+发红光，LaGaO3: Dy3+发白光，LaGaO3: Tm3+发蓝光，LaGaO3: Sm3+发黄光，LaGaO3: Sm3+,Tb3+发白光。LaGaO3: Tb3+的发光颜色可通过不同Tb3+的掺杂浓度从蓝光到绿光进行调控。在相同的激发条件下，所制备的蓝光发射的LaGaO3: Tb3+和LaGaO3: Tm3+荧光粉与商业FED用蓝粉(Y2SiO5: Ce3+，日亚化学工业株式会社，NP-1047)相比具有更好的色纯度和更高的发光效率；所制备的黄光发射的LaGaO3: Sm3+荧光粉与商业低压黄色荧光粉((Zn,Cd)S: Ag，日亚化学工业株式会社，NP-1020)相比，色纯度接近，但具有更高的发光效率。并首次实现了单一基质中白光发射(LaGaO3: Sm3+,Tb3+), 所制备的稀土离子激活的镓酸镧彩色荧光粉[(LaGaO3: Re3+ (Re = Eu, Tb, Dy, Tm, Sm )]在场发射器件有潜在的应用。 在稀土离子掺杂的Sr/CaIn2O4荧光粉体系中，在基质Sr/CaIn2O4和掺杂离子Pr3+/Tb3+/Dy3+存在高效能量传递。基质Sr/CaIn2O4吸收能量向激活离子Pr3+/ Tb3+/Dy3+传递，发射为稀土离子Pr3+/Tb3+/Dy3+的特征发射，发光强度、荧光寿命等符合应用要求，在低压电子束激发下，Sr/CaIn2O4: Pr3+/Tb3+/Dy3+荧光粉为稀土离子的特征发射，其低压阴极射线发光(CL)光谱与光致发光(PL)发射光谱一致，CL强度随激发电压，电流密度增加而增强。 对于CaIn2O4:Eu3+荧光粉，进一步研究表明CaIn2O4:Eu3+荧光粉的光致发光和阴极射线发光颜色可以通过掺杂不同浓度的Eu3+从白光，黄光，到红光进行调控。低浓度掺杂发白光，高浓度掺杂发红光，适当的浓度发黄光。 在Lu3Ga5O12:Re3+ (Re = Eu, Tb，Pr)荧光粉体系中，在紫外（UV）和低压阴极射线激发下，所制备的荧光粉Lu3Ga5O12: Eu3+, Lu3Ga5O12: Pr3+为稀土离子Eu3+, Pr3+的特征发射，分别发黄光和绿光。Lu3Ga5O12:Tb3+的发光颜色因Tb3+掺杂浓度不同而不同，低浓度掺杂发蓝光，高浓度发绿光。 Sr2CeO4荧光粉在UV及低压阴极射线激发下发出强烈蓝光，源于配体到金属离子电荷迁移带跃迁(Ce4+-O2-)。其阴极射线发光强度与电压及灯丝电流呈良好的线性关系。 采用溶胶－凝胶方法的核壳结构的SiO2@CaTiO3:Pr3+和SiO2@Y3Al5O12: Ce3+/Tb3+荧光粉, FESEM和TEM结果表明这种核壳结构的发光材料表面致密，厚度均匀，保持了单分散SiO2微球的形貌特征。在UV及低压阴极射线激发下，SiO2@CaTiO3:Pr3+呈强红色发射，源于Pr3+ 的1D2—3H4 (612 nm)跃迁；SiO2@Y3Al5O12:Ce3+和SiO2@Y3Al5O12:Tb3+ 分别发黄绿光和绿光，源于Ce3+的5d-4f和Tb3+的5D4-7FJ (J = 6, 5, 4, 3)跃迁。PL强度可以通过包覆次数调控，CL强度随激发电压及灯丝电流增加而增强。 在Ga2O3:Dy3+荧光粉体系中，采用了溶胶-凝胶，氨水共沉淀，和高温固相法制备了Ga2O3:Dy3+荧光粉并比较了他们的结晶行为，形貌，光致发光和低压阴极射线发光性能。溶胶-凝胶法制备由于原料在分子层次上混合，可以得到纯相，氨水共沉淀和高温固相法原料不如溶胶凝胶法混合均匀，很难得到纯相。溶胶-凝胶和氨水共沉淀所得荧光粉为纳米级别大小，分别呈球形和玉米棒形状；高温固相法微米级别且呈不规则形状。Ga2O3向Dy3+传递能量效率依次按溶胶-凝胶，氨水共沉淀，和高温固相法逐渐降低。在紫外光激发下，分别发白光，蓝白光，蓝光。其低压阴极射线发光与光致发光类似。相比之下，溶胶-凝胶法制备Ga2O3:Dy3+荧光粉比氨水共沉淀和高温固相法制备要好。

Microwave dielectric properties of (1-x)CaTi03-xSm(Mg1 /2Ti1/2)03 [0. 1 _

The microwave dielectric properties of (I -x)CaTiO3-xSm(Mg1/2Tit,2)O3(0.1 <-x< 1.0) have been investigated. The system forms a solid solution throughout the entire compositional range. The dielectric constant decreases from 86 to 25 as x varies from 0.1 to 1.0. The Qxf varies non-linearly and increases for composition with x> 0.6. The nonmonotonic variation with composition x is more pronounced in Tt than in er. The microwave dielectric properties indicate the possibility of a phase transformation for x between 0.4 and 0.5

Photoluminescence of barium-calcium titanates obtained by the microwave-assisted hydrothermal method (MAH)

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Evaluation of the effect of the stoichiometric ratio of Ca/Cu on the electrical and microstructural properties of the CaCu3Ti4O12 polycrystalline system

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Photoluminescent CaCu3Ti4O12-Based Thin Films Synthesized by a Sol-Gel Method

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Structural XANES characterization of Ca0.99Sm0.01TiO3 perovskite and correlation with photoluminescence emission

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Non-Ohmic and dielectric properties of a Ca2Cu2Ti4O12 polycrystalline system

An investigation was made into the non-Ohmic and dielectric properties of a Ca2Cu2Ti4O12 perovskite-type system. Compared to the traditional CaCu3Ti4O12-based composition, the imbalance between the Ca and Cu atoms caused the formation of a polycrystalline system presenting similar to 33.3 mol % of CaCu3Ti4O12 (traditional composition) and similar to 66.7 mol % of CaTiO3. As for non-Ohmic properties, the effect of this Ca and Cu atom imbalance was that a nonlinear electric behavior of similar to 1500 was obtained. This high nonlinear electrical behavior emerged in detriment to the ultrahigh dielectric property frequently reported. The high non-Ohmic property was explained by the existence of Schottky-type barriers, whose formation mechanism may be similar to that proposed for traditional metal oxide non-Ohmic devices, according to similarities discussed herein. (c) 2006 American Institute of Physics.

Preparation and characterizations of Ba0.8Ca0.2TiO3 by complex polymerization method (CPM)

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Structural refinement and photoluminescence properties of irregular cube-like (Ca-1_Cu-x(x))TiO3 microcrystals synthesized by the microwave-hydrothermal method

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

Study of superficial properties of titanium treated by PIIID

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)