1) Antimony doped Tin Oxid
锑掺杂氧化锡(ATO)
2) antimony doped tin oxide(ATO)
掺锑二氧化锡(ATO)
1.
In this paper,heat insulating effect of antimony doped tin oxide(ATO)/polyurethane(PU ) transparent coating was inrestigated based on long time measurement.
对掺锑二氧化锡(ATO)基透明隔热涂层的隔热效果进行了长时间测试,发现无论对被隔热空间还是对涂层本身,一定时间后能量均达到动态平衡,涂层具有持久隔热效果。
3) antimony doped tin oxide
锑掺杂二氧化锡
1.
The conducting mechanism and preparation status of nano-sized antimony doped tin oxide (ATO) are introducted.
从二氧化锡的应用出发,总结了锑掺杂二氧化锡的导电机理和该材料湿相制备方法的研究现状。
2.
Polyethylene terephathalate(PET)-polyether ester(PEE)/antimony doped tin oxide(ATO) composites(PET-PEE/ATO) were prepared by means of three-step co-polycondensation.
采用三步共缩聚法制得聚对苯二甲酸乙二酯-聚醚酯/锑掺杂二氧化锡复合聚酯。
3.
The characteristics, conductive mechanism, status of preparation, exisiting problems of antimony doped tin oxide(ATO) are introducted.
介绍了锑掺杂二氧化锡(ATO)的特点、导电机理、制备方法研究现状及目前存在的问题。
4) antimony-doped tin oxide
锑掺杂氧化锡
1.
The Preparation and Research Progress of Nanometer Antimony-doped Tin Oxide
锑掺杂氧化锡纳米粉体的制备及其研究进展
2.
Conductive powder (Sb–SnO2/BaSO4) of a barite matrix coated with antimony-doped tin oxide was successfully prepared by a chemical co-precipitation technique.
探讨了锑掺杂氧化锡的缺陷与能级效应,确定了导电粉末中掺杂效应的缺陷反应。
3.
SnCl4·5H2O and SbCl3 were used as the initial materials to prepare antimony-doped tin oxide(ATO) nanoparticles by sol–gel method combined with the supercritical fluid drying technique.
以无机盐SnCl4·5H2O和SbCl3为初始原料,以乙醇作为溶剂,采用溶胶-凝胶法结合超临界流体干燥(supercritical fluid drying,SCFD)技术制备了纳米锑掺杂氧化锡(antimony doped tin oxide,ATO)粉体。
5) antimony-doped tin oxide
掺锑氧化锡
1.
Effects of calcination temperature on antimony-doped tin oxide powders
煅烧温度对掺锑氧化锡粉体性能的影响
2.
The BET,XRD and TEM measurements of the precursor power and the calcinated antimony-doped tin oxide powder were carried out.
用BET、XRD和TEM等方法对前驱体和掺锑氧化锡纳米粉体进行表征。
3.
Conductive antimony-doped tin oxide(ATO) ultra-fine powder is prepared by hydrolysis of alkoxides, using SnCl4·5H2O and SbCl3 as raw materials.
以SnCl4·5H2O和SbCl3为原料,用醇盐水解法制备了纳米掺锑氧化锡(ATO)导电粉体。
6) Sb-doped tin oxide
掺锑氧化锡
1.
Result showed that the obtained Sb-doped tin oxide nanopowders possessed high specific surface area.
结果表明,采用乙醇超临界流体干燥法可得到高比表面积的掺锑氧化锡纳米粉体。
2.
Sb-doped tin oxide nanopowders with tetragonal rutile structure were obtained after calcination of the dried Sb-doped tin hydroxide.
5H2O和SbCl3乙醇溶液为原料,采用离子交换除氯水解法得到无氯离子的掺锑氢氧化锡胶体沉淀,以正丁醇作脱水剂对胶体进行共沸干燥处理,所得的掺锑氢氧化锡干微粉经热处理后得到了四方形金红石结构的掺锑氧化锡纳米粉末。
3.
Sb-doped tin oxide nanopowders have been synthesized by ion-exchange for removal of chlorine hydrolysis method and azeotropic distillation drying with n-Butanol method,using ethanol solution containing SnCl4?5H2O and SbCl3 as raw materials.
5H2O和SbCl3乙醇溶液为原料,采用离子交换除氯水解法及正丁醇共沸蒸馏干燥法制备得到了掺锑氧化锡纳米粉末,用FT-IR、XRD和TEM等方法对粉体进行了表征。
补充资料:斯锑康 ,可乐锑,葡萄糖酸锑钠
药物名称:圣露斯锑波霜
英文名:Sodium stibogluconate
别名: 葡酸锑钠;圣露斯锑波霜;斯锑黑克;斯锑康 ,可乐锑,葡萄糖酸锑钠
外文名:Sodium stibogluconate , Stihek, Sticon, Solustibosan, Antimonyl Gluconate
适应症: 用于黑热病病因治疗,近期疗效可达99%,2年复发率低于10%
用量用法:
静注或肌注:成人每次6~9ml,每日1次,连用6日为1疗程。小儿总量每千克体重120~240mg,分6次注射,每日1次。对体弱而感染严重的病人,总剂量每千克体重150mg,分6次注射,每周注射2次。注射液的极量:每次12ml。
注意事项:
1.复发病例可再用本品治疗。 2.使用本品有时发生恶心、呕吐、咳嗽、腹泻等现象,偶有白细胞减少,可停药1~2日,等这类症状消失后,再继续注射。 3.凡患肺炎、肺结核及严重心、肝、肾疾患后,都应禁用。有大出血倾向、体温突然上升或粒细胞减少时,应暂停注射。病情较重,有严重贫血或并发其他感染的,应先治疗并发症,积极给予支援疗法,待一般情况改善后,再用锑剂。
规格: 注射液:每支含锑量0.6g(五价锑,相当于葡萄糖酸锑钠1.9g)(6ml)。
类别:抗黑热病药
英文名:Sodium stibogluconate
别名: 葡酸锑钠;圣露斯锑波霜;斯锑黑克;斯锑康 ,可乐锑,葡萄糖酸锑钠
外文名:Sodium stibogluconate , Stihek, Sticon, Solustibosan, Antimonyl Gluconate
适应症: 用于黑热病病因治疗,近期疗效可达99%,2年复发率低于10%
用量用法:
静注或肌注:成人每次6~9ml,每日1次,连用6日为1疗程。小儿总量每千克体重120~240mg,分6次注射,每日1次。对体弱而感染严重的病人,总剂量每千克体重150mg,分6次注射,每周注射2次。注射液的极量:每次12ml。
注意事项:
1.复发病例可再用本品治疗。 2.使用本品有时发生恶心、呕吐、咳嗽、腹泻等现象,偶有白细胞减少,可停药1~2日,等这类症状消失后,再继续注射。 3.凡患肺炎、肺结核及严重心、肝、肾疾患后,都应禁用。有大出血倾向、体温突然上升或粒细胞减少时,应暂停注射。病情较重,有严重贫血或并发其他感染的,应先治疗并发症,积极给予支援疗法,待一般情况改善后,再用锑剂。
规格: 注射液:每支含锑量0.6g(五价锑,相当于葡萄糖酸锑钠1.9g)(6ml)。
类别:抗黑热病药
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条