1) reverse micelle of microemulsion
反向微乳法
2) reverse microemulsion
反相微乳法
1.
Controlled synthesis of Ce_(0.8)Y_(0.2)O_(1.9) nanoparticles by reverse microemulsion;
纳米级固溶体Ce_(0.8)Y_(0.2)O_(1.9)的反相微乳法控制合成
2.
Among the four samples, the one prepared by reverse microemulsion method showed a perfect cubic phase and the most reducible property.
其中,反相微乳法制得的铈锆固溶体能够形成完整的立方相结构,在H2-TPR还原过程中耗氢量最大,表明其具有优良的可还原性及储放氧能力,适合作为TWC,POX等催化剂载体。
3) reverse microemulsion method
反相微乳法
1.
Principle of nanometer catalyst preparation through reverse microemulsion method and its application in preparation of high temperature combustion catalyst were introduced.
综述了反相微乳法制备纳米催化剂的原理及其在制备高温燃烧催化剂上的应用。
4) reverse microemulsion method
反相微乳液法
1.
TiO_2/ZrO_2 composite bactericidal ceramic film prepared by reverse microemulsion method;
反相微乳液法制备TiO_2/ZrO_2复合陶瓷膜
2.
The results indicate that the samples prepared by the reverse microemulsion method have higher thermal stability.
采用反相微乳液法制备了在高温条件下结构稳定的Al2O3基复合氧化物。
5) inverse micell microemulsion method
反胶束微乳液法
1.
The precursors of SrTiO3 were prepared by inverse micell microemulsion method.
近年来,采用反胶束微乳液法合成其他材料的报道很多[5,6],但合成SrTiO3材料尚未见报道。
6) reverse microemulsion
反相微乳液法
1.
The reverse microemulsion has excellent dispersiveness and stabili.
反相微乳液法可获得高度分散、高度稳定的陶瓷墨水,陶瓷颗粒的粒度可以达到纳米级,但如何提高其固含量是一个亟待解决的技术难题。
2.
Barium hexaaluminate nanoparticles were prepared by reverse microemulsion.
采用反相微乳液法制备BaAl12O19纳米颗粒,并与常规沉淀法相比较。
3.
Carbon nanotube microspheres with regular shape were fabricated from acid-treated and amine-functionalized carbon nanotubes(CNTs) using reverse microemulsion.
通过对碳纳米管的混酸处理和氨水处理,在不使用乳化剂的情况下,采用反相微乳液法合成了形状较为规则的碳纳米管球,比较了四种不同油相以及酸处理时间、水相中碳纳米管含量和搅拌蒸发温度对微球形成和形态的影响,并对碳纳米管微球的形成机理进行了分析。
补充资料:可降解淀粉微球和生物降解白蛋白微球阻滞法
可降解淀粉微球和生物降解白蛋白微球阻滞法
介入放射学技术。介入性局部化疗之前,把二者注入靶动脉,可暂时减少动脉血流,再行化疗药物灌注,以减少血液冲刷,保持局部化疗药物浓度的技术。与其他中期和长期栓塞微球不同,DSM和BAM仅造成数十分钟的血流量减少,待其被降解后血流可恢复至以前水平。
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