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271.
SmAlO3 nanopowder synthesized by a citrate precursor method using citric acid as a chelating agent and ethylene glycol as an esterifying
agent was reported in this paper. The phase purity of the as-prepared powder was examined using thermogravimetry (TG) analysis
and differential scanning calorimetry (DSC) analysis, Fourier transform infrared spectroscopy (FTIR). The X-ray diffraction
(XRD) studies showed that pure SmAlO3 phase with orthorhombic perovskite structure could be synthesized at 800 °C for 2 h without any detectable intermediate phase.
The average particle size calculated from transmission electron microscopy (TEM) investigation for the powder synthesized
at 900 °C was as low as 45 nm. The nanopowder was sintered to a density of 97% of the theoretical density at 1,550 °C for
2 h and the bulk ceramics exhibited excellent microwave dielectric properties as follows: a dielectric constant of 20.54,
a quality factor of 75,380 GHz and a temperature coefficient of resonate frequency of −69.2 ppm/K. 相似文献
272.
A series of cationic gemini surfactants butanediyl-1,4-bis(dodecyldialkylammonium bromide), C(12)H(25)N(+)(C(m)H(2)(m)(+1))(2)C(4)H(8)N(+)(C(m)H(2)(m)(+1))(2)C(12)H(25)·2Br(-), where m=1, 2, 3, 4, referred to as C(12)C(4)C(12)(Me), C(12)C(4)C(12)(Et), C(12)C(4)C(12)(Pr), and C(12)C(4)C(12)(Bu), respectively, were synthesized, and their thermodynamic properties of micellization were studied by electrical conductivity measurements. There existed a minimum critical micelle concentration (cmc) in the curve of cmc versus temperature, and the temperature of the minimum of cmc (T(min)) increased with increasing the headgroup alkyl chain length. The values of log (cmc) depended linearly on carbon number of the alkyl chains, but that was not true for the carbon number of the headgroup substituents. The temperature dependence of cmc and degree of counterion association (β) were used to calculate the Gibbs free energy (Δ(mic)G°), enthalpies (Δ(mic)H°) and entropies (Δ(mic)S°) of micelle formation for these gemini surfactants, and well correlated enthalpy-entropy compensation was observed. The analyses showed C(12)C(4)C(12)(Me) and C(12)C(4)C(12)(Et) behaved similarly in terms of thermodynamics of micellization, but they behaved differently from C(12)C(4)C(12)(Pr) and C(12)C(4)C(12)(Bu), which could be ascribed to the hydrophobicity and the location of the headgroup alkyl chains in the aggregates. These initial results indicate the headgroup alkyl chain plays an important role in influencing the thermodynamic properties of gemini surfactants. 相似文献
273.
A theoretical investigation on small silicon-doped lithium clusters Li(n)Si with n = 1-8, in both neutral and cationic states is performed using the high accuracy CCSD(T)/complete basis set (CBS) method. Location of the global minima is carried out using a stochastic search method and the growth pattern of the clusters emerges as follows: (i) the species Li(n)Si with n ≤ 6 are formed by directly binding one Li to a Si of the smaller cluster Li(n-1)Si, (ii) the structures tend to have an as high as possible symmetry and to maximize the coordination number of silicon. The first three-dimensional global minimum is found for Li(4)Si, and (iii) for Li(7)Si and Li(8)Si, the global minima are formed by capping Li atoms on triangular faces of Li(6)Si (O(h)). A maximum coordination number of silicon is found to be 6 for the global minima, and structures with higher coordination of silicon exist but are less stable. Heats of formation at 0 K (Δ(f)H(0)) and 298 K (Δ(f)H(298)), average binding energies (E(b)), adiabatic (AIE) and vertical (VIE) ionization energies, dissociation energies (D(e)), and second-order difference in total energy (Δ(2)E) of the clusters in both neutral and cationic states are calculated from the CCSD(T)/CBS energies and used to evaluate the relative stability of clusters. The species Li(4)Si, Li(6)Si, and Li(5)Si(+) are the more stable systems with large HOMO-LUMO gaps, E(b), and Δ(2)E. Their enhanced stability can be rationalized using a modified phenomenological shell model, which includes the effects of additional factors such as geometrical symmetry and coordination number of the dopant. The new model is subsequently applied with consistency to other impure clusters Li(n)X with X = B, Al, C, Si, Ge, and Sn. 相似文献
274.
2,3‐Dimethylpentacene (DMP) and 2,3‐dimethyltetracene (DMT) were synthesized, characterized and employed as the channel material in the fabrication of thin‐film transistors. The two methyl groups increase the chemical stability of the compounds versus the pristine acene analogues. The crystals maintain herringbone‐like molecular packing, whereas the weak dipole associated with the unsymmetrical molecule induces an anti‐parallel alignment among the neighbors. This structural motif favors layered film growth on SiO2/Si surface. Thin film transistors prepared on SiO2/Si and n‐nonyltrichlorosilane‐modified SiO2/Si at different substrate temperatures were compared. DMP‐based transistors prepared on rubbed n‐nonyltrichlorosilane‐modified SiO2/Si substrate gave the highest field‐effect mobility of 0.46 cm2/Vs, whereas DMT‐based transistor gave a mobility of 0.028 cm2/Vs. 相似文献
275.
Y.S. Tai 《Theoretical and Applied Fracture Mechanics》2009,51(2):117-128
Reactive powder concrete (RPC), a composite that has been developed in recent years, is a special mixture that is cured to have a higher compressive strength than that of concrete (about 200 MPa). Adding a few steel fibers can markedly increase its mechanical properties, such as tensile and bending strength, impact resistance and toughness. Hence, RPC is highly promising for use in the containment structures of nuclear power plants and in the protection of military facilities. This study evaluates the resistance of ultra-high strength concrete targets by high-velocity impact experiments. Test variables include the impact velocity and the amount of steel fibers added. The experimental results reveal that RPC plates, because of their higher compressive strength, are more fragile than normal concrete (NC) plates. However, adding a small amount of steel fibers significantly improved the impact resistance of the target plates. Moreover, a numerical simulation based on the nonlinear finite element code LS-DYNA was performed. The results of the numerical simulation have a good agreement with the experimental data and can be used for further research. 相似文献
276.
In the present work we treat granular materials as mixtures composed of a solid and a surrounding void continuum, proposing
then a continuum thermodynamic theory for it. In contrast to the common mass-weighted balance equations of mass, momentum,
energy and entropy for mixtures, the volume-weighted balance equations and the associated jump conditions of the corresponding
physical quantities are derived in terms of volume-weighted field quantities here. The evolution equations of volume fractions,
volume-weighted velocity, energy, and entropy are presented and explained in detail. By virtue of the second law of thermodynamics,
three dissipative mechanisms are considered which are specialized for a simple set of linear constitutive equations. The derived
theory is applied to the analysis of reversible and irreversible compaction of cohesionless granular particles when a vertical
oscillation is exerted on the system. In this analysis, a hypothesis for the existence of a characteristic depth within the
granular material in its closely compacted state is proposed to model the reversible compaction. 相似文献
277.
278.
35MeV/u 40 Ar+197 Au反应中热核的碎裂密度 总被引:1,自引:0,他引:1
许多提取核反应过程中熵产生的方法只适用于高能核反应过程 ,而约化d的产额方法可以用于较低能量的重离子核反应中 .对于 3 5MeV/u40 Ar+ 197Au的核反应过程 ,利用这种方法所得的熵和约化带电粒子多重性提取的熵结果一致 .对于后角热核发射体系 ,实验提取的核温度为 ( 4.7± 1 .2 )MeV ,熵为S/A =2 .5± 0 .5,根据实验提取的熵和核温度可以确定其碎裂密度小于 0 .1 ρ0 相似文献
279.
Long‐Mei Zeng Chao‐Jie Wang Jing‐Yu Su Du Li Noel L. Owen Yang Lu Nan Lu Qi‐Tai Zheng 《中国化学》2001,19(11):1097-1100
Two new flavonoids, acanthophorin A (1) and acanthophorin B (2), along with three known compounds tiliroside (3), (‐)‐catechin (4) and quercetin (5) were isolated from the red alga Acanthophora spicifera. The structures of 1 and 2 were determined to be kaempferol 3‐O‐α‐L‐fucopyranoside (1) and quercetin 3‐O‐α‐L‐fucopyranoside (2) by spectroscopic methods. Both 1 and 2 showed significant antioxidant activity. 相似文献
280.
Titanium dioxide semiconductor systems with excellent stability of photo-electric chemistry, no poison, cheap, and high separation efficiency of photogenerated charges, consequently, high photocatalytic activity, have been the subject of extensive investigation because of their promise in the photovoltaic[1], photocatalytic[2], and battery applications[3]. The efficiencies of these materials in photovoltaic and photocatalytic applications depend strongly upon the trapping and recombination energetics, i.e., electrons and holes and the conversion of light. Nanosized TiO2 particles present much higher photocatalytic activity due to larger effective surface areas, higher densities of. surface states, shorter distance of photogenerated charges from inner to the surfaces of TiO2 particles resulting in higher separation efficiency of electron-hole pairs, and quantum size effect. 相似文献