粉体および粉末冶金 50 巻, 6 号

ゾル・ゲルプロセスによる遷移金属イオンドーピングTiO₂膜の調製とその光触媒性能

TiO₂ films with doping transition metals were prepared by sol-gel processing. The absorbance of the TiO₂ films in the range of 500-700 nm was increased by doping V, Mn or Cu ions. Their photocatalytic ability for decomposing methylene blue was less than that of the original TiO₂ films under illumination of both uv-and vis-light. Upon the heat treatment above 650°C, a new compound V₂TiO₆ showed up leading to formation of non-transparent films and thus its photocatalytic ability for decomposing methylene blue was not determined. The method for testing of photocatalysis was developed in a semi-quantitative manner.

メカニカルコンパウンディング法により作製したSr-La-Co系M型フェライト粉末を用いた異方性ボンド磁石の磁気特性

Sr-La-Co M-type ferrite powders were prepared by the mechanical compounding method using the planetary ball-mill and subsequent heat treatment. This experiment was carried out to investigate magnetic properties of bonded magnet using M-type ferrite powders prepared by Mechanical compounding method. The properties and making condition of typical sample are as follows; Chemical composition: SrO⋅6.3Fe₂O₃ in addition with 2.0 wt% La₂O₃ and 0.3 wt% Co₃O₄; planetary ball-mill condition: 300 rpm × 1 h; heat treatment condition: 1200°C×4h in air; centrifugal mill time: 1 h; binder: Nylon6 (ejection molding); magnetic properties are J_r= 0.252T; H_cJ=307kA/m; (BH)_max=12.3 kJ/m³ and density: 3.57 Mg/m³.

MAによる微粒子分散コンポジット熱電変換材料の開発

We have prepared the thermoelectric materials, where the small particles are dispersed in the matrix, by mechanical grinding (MG) or alloying (MA). Si and C powers were added to the p-type Fe_0.92Mn_0.08Si₂ or n-type Fe_0.98Co_0.02Si₂ powders, and they were mechanically milled followed by being hot-pressed. The amounts of the β-phase, ε-phase, α-SiC and C in the sintered samples depend on the amount of the added (Si+C) and the Si/C molar ratio, which affect the values of the Seebeck coefficient and electrical resistivity of the samples. A lot of fine α-SiC particles around 20nm were dispersed in the samples, which decreases the thermal conductivity of the samples. The maximum figure of merit values appear at Si/C=1.5 for p-type Fe_0.92Mn0.08Si2 containing 4 mass%(Si+C) and Si/C=1.75 for n-type Fe_0.98Co_0.02Si₂. We have also prepared the CoSb₃-FeSb₂ composite where the FeSb₂ particles are dispersed in the CoSb₃ matrix. The dispersed FeSb₂ particles contributed to decreasing the thermal conductivity and maintaining the moderate Seebeck coefficient and electrical resistivity of the samples. As a result, the composite whose molar ratio CoSb₃/FeSb₂ is 0.7/0.3 and milling time is 25 h has a maximum value of figure of merit of 6.1×10^-4 K^-1 at 756 K, which is much larger than that of 3.2×10^-4 K^-1 for CoSb₃.

放電プラズマ焼結法によるβ-FeSi₂作製条件の検討

In the results of one-step sintering, the relations between applied pressure, heating rate, densification, and β-FeSi₂ formation are as follows. There is a tendency that the higher applied pressure, the higher densification and the easier β-FeSi₂ formation. On the other hand, there is a tendency that the lower heating rate, the higher densification, and the higher heating rate, the easier β-FeSi₂ formation. However, if the applied pressure and heating rate are too high, it will become a reaction exceeding eutectic temperature. It is supposed that there is no advance in the formation of β-FeSi₂ during the heating and the formation of β-FeSi₂ proceeds during the holding time. In addition, β-FeSi₂ of high density (about 95%TD) was produced by two-step sintering. Results show that, 750°C is suitable for the sintering temperature of 2nd step sintering. At that condition, remaining of some ε-FeSi was observed, while α-FeSi₂ almost disappeared.

酸化物熱電半導体のゼーベック係数へ及ぼす電子構造と酸化物の役割

An oxide is functionally classified into two categories when regarding oxide as thermoelectricity: 1) an oxide itself has thermoelectric properties such as CaMnO₃, homologous series of (ZnO)_m and NaCo₂O₄, and they have been researched since around 1995. 2) there are researches on oxide as an additive to conventional thermoelectric material. We have investigated to approach thermoelectric property from the electronic structures by ab initio calculation. We propose to estimate Seebeck coefficient of oxide by regarding movement of electron between energy levels in the electronic structures. Thereby, it will lead to a new thermoelectric material of oxide. Furthermore, we can improve figure of merit by adding oxide to FeSi₂ due to reducing thermal conductivity in the present study.

γ-Na_xCoO₂(x=0.67～0.75)の結晶構造と輸送特性

Crystal structure and transport properties of γ-Na_xCoO₂ have been studied in the range of x=0.67-0.75. Single-phase samples were prepared by sintering mixture of raw materials, Na₂CO₃ (99.5%) and Co₃O₄ (99.9%). Na/Co composition ratio (x) was determined by inductively coupled plasma (ICP) analysis. The crystal structure parameters were refined by Rietveld analysis of powder neutron diffraction intensities, assuming P63/mmc type space symmetry. Little changes in the crystal structure are noticed, except for Na contents. Electric resistivity ρ and Seebeck coefficient S were measured at temperatures between 380 K and 1000 K by the standard four-probe method and temperature-gradient method, respectively. The ρ-T curves exhibit the thermal hysteresis in the initial measurement. But, in the following measurement, the thermal hysteresis is significantly surpressed. The S was slightly higher in the sample with x = 0.75 than in the others at any temperatures. Power factor (S²/ρ) reaches its maximum value at x = 0.75 (5.3 × 10-4 W/mK² at 980 K). Hot pressing technique is effective in removing the thermal hysteresis of ρ as well as increasing the power factor.

複合結晶[(Ca_1-xSr_x)₂CoO₃]_ρCoO₂の結晶構造と熱電特性

Polycrystalline samples of [(Ca_1-xSr_x)2CoO₃]_ρCoO₂ with 0≤x≤0.20 have been synthesized at 1193 K in flowing oxygen gas. The modulated crystal structure of the samples has been determined in accordance with a four-dimensional formalism from powder neutron diffraction data. With increasing x, the modulation amplitudes in Co-Co conduction paths become less marked. The non-doped sample (x=0) exhibits the resistivity ρ=150μΩm and the thermoelectric power S=130, μV/K at 300 K. Both the ρ and S values decrease with x but the decrease in ρ values is steeper than that of the S values. The power factor S²/ρ increases with x, from 110μW/m/K² (x=0) to 140μW/m/K² (x=0.20) at 300 K. This improvement in thermoelectric performance can be explained in terms of the reduction of displacive modulation of the Co-Co conduction paths in the CoO₂ sheets.

超音波噴霧熱分解法を用いたCa₃Co₄O₉粉末の合成とその焼結体の電気的性質

Ca₃Co₄O₉ was synthesized by ultrasonic spray pyrolysis (USP) method. The concentration of metal ions in the starting solution was 0.1 mol/l or 0.01 mol/l as Ca₃Co₄O₉, and as the solvent, each of pure water, H₂O₂ solution or HNO₃ solution was used. The solution was sprayed in the furnace and pyrolyzed at 1073 K. X-ray powder diffraction analysis confirmed that all the powders prepared by USP were Ca-Co oxide. The powders were calcined at 1073 K and then sintered at 1173 K. The same sintering conditions were used for the powders prepared by the solid state reaction. The density of the sintered bodies prepared from USP powders ranged in 2.5-2.8gcm^-3 and they differed by the solvent of the starting solution. The density of the sintered bodies prepared by solid state reaction was higher than those by USP. The electrical conductivity of the sintered bodies prepared by USP ranged in 4700-5000 Sm^-1 at 1073 K, which was higher than those by solid state reaction. In contrast, Seebeck coefficient of the bodies prepared by USP was 106-108μVK^-1 at 1073 K, being smaller than those by solid state reaction.

Ca₃Co₄O₉単結晶複合熱電酸化物の特性

Having recently succeeded in synthesizing large single crystals of (Ca₂CoO₃)CoO₂(Co-349) with superior thermoelectric properties and in high yields of about 30% using a modified flux method, we have prepared a composite material of Co-349 powder and single crystals and examined its thermoelectric properties. The electrical resistivity p of this composite containing 20 wt.% single crystals is found to be lower than that of the sample without the single crystals. Improved grain alignment and the effect of current bypassing grain boundaries through the large single crystals in the composite are thought to cause the suppressed ρ, which consequently results in an enhanced thermoelectric figure of merit about 0.56 at 973 K in air.

コンビナトリアルケミストリーによる熱電酸化物の探素

It has been reported that single crystals of CoO₂-based oxides with layered structures show good p-type thermoelectric properties. In order to realize thermoelectric power generation, n-type oxides possessing thermoelectric properties as good as CoO₂-based oxides are indispensable. We are exploring new n-type oxides using a combinatorial technique, in which 1000 samples can be prepared and evaluated their thermoelectric properties a day. Aqueous solutions of metal nitrates were used as starting materials. In an hour, a single library of 100 samples can be prepared on a 100 × 100 mm alumina plate for heat treatment. Evaluation of Seebeck coefficient was performed using a "Seebeck tester" at a rate of 600 samples/h. In the binary system, the Nd-Ni-O libraries are found out to show n-type thermoelectric properties.