Nanopowders Prepared(制备的纳米粉末)研究综述
Nanopowders Prepared 制备的纳米粉末 - Bulk, almost fully dense, nanograined ferrites have been obtained starting from nanopowders prepared by a simple, inexpensive, water-based, modified Pechini method. [1] Along with TiO2:Co samples, a few samples of nanopowders prepared by Sol-Gel method were also studied. [2] The C3N4-based nanopowders prepared by thermal condensation of melamine (MCN) with subsequent thermal etching (MCN-TE) and H2O2-treatment were investigated by Q- and X-band EPR spectroscopy in dark and upon in situ UVA or visible-light exposure. [3] The structure, morphology, density, and resistivity of nanostructured superconducting YBCO-based ceramics, fabricated from nanopowders prepared by burning nitrate-organic precursors, have been investigated. [4]已经从通过简单、廉价、水基、改良的 Pechini 方法制备的纳米粉末开始获得块状、几乎完全致密的纳米晶粒铁氧体。 [1] 除了 TiO2:Co 样品外,还研究了一些通过溶胶-凝胶法制备的纳米粉体样品。 [2] 通过 Q 和 X 波段 EPR 光谱在黑暗和原位 UVA 或可见光照射下研究通过三聚氰胺 (MCN) 热缩合、随后的热蚀刻 (MCN-TE) 和 H2O2 处理制备的 C3N4 基纳米粉末. [3] 已经研究了由通过燃烧硝酸盐-有机前体制备的纳米粉末制成的纳米结构超导 YBCO 基陶瓷的结构、形态、密度和电阻率。 [4]
nanopowders prepared vium 纳米粉制备 Vium
2MnO3 nanopowders prepared via sol–gel process were investigated. [1] Moreover, the formation mechanism of ITO nanopowders prepared via polyacrylamide gel route was also investigated. [2] W–Y 2 O 3 composite nanopowders prepared via wet chemical method exhibit unique morphologies and microstructures. [3]研究了通过溶胶-凝胶法制备的 2MnO3 纳米粉末。 [1] 此外,还研究了通过聚丙烯酰胺凝胶法制备的ITO纳米粉体的形成机理。 [2] 湿化学法制备的W-Y 2 O 3 复合纳米粉体具有独特的形貌和微观结构。 [3]