| 1. | Recent development of skutterudite thermoelectric material
热电材料的最新研究进展 |
| 2. | Progress in skutterudite thermoelectric materials
12热电化合物的固相反应合成及性能研究 |
| 3. | The synthesis and thermoelectric properties of n - type skutterudite compounds
12的热电性能研究 |
| 4. | The latest development of filled skutterudite thermoelectric material
方钴矿热电材料的研究进展 |
| 5. | Studies on the thermoelectric properties of p - type bayfeco3sb12 skutterudite compounds
12化合物的合成及热电性能 |
| 6. | In - situ synthesis of skutterudite compounds layfeco3 . 0sb12 and its characterisation
12热电化合物的原位反应合成及热电性能 |
| 7. | The synthesis and thermoelectric properties of samarium - filled skutterudite smyfexco4 - xsb
填充方钴矿化合物的合成及热电性能 |
| 8. | Kondo interactions in the ceos4sb12 skutterudite studied by inelastic neutron scattering
12近藤相互作用的非弹性中子散射研究 |
| 9. | Crystal structures and thermoelectric properties of sm - filled skutterudite compounds smyfexco4 - xsb
化合物的晶体结构和热电性能 |
| 10. | As a type of potentially good thermoelectric materials , cosb3 compounds with the skutterudite crystal structure mx3 have attracted attention widely , because of their high carrier mobility , large electrical conductivities , and large seebeck coefficients . however , the thermal conductivity of skutterudite is too large , so , zt is low . therefore reducing the thermal conductivity of cosb3 has becomed a main research way at present
Cosb _ 3方钴矿化合物作为一种具有潜在高热电性能指数的新型中温热电材料具有大的载流子移动度、高的电导率和较大的seebeck系数,但由于热导率较大,因此要提高cosb _ 3方钴矿化合物的热电性能,降低其热导率是当前研究的热点之一。 |
