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1)  citrate-gel method
柠檬酸-凝胶法
1.
In this present paper,Eu-doped Sr_2CeO_4 phosphors were synthesized through citrate-gel method.
采用柠檬酸-凝胶法成功地制备了Eu3+掺杂的S r2C eO4荧光体。
2.
To our best knowledge, for the first time, pure and doped Sr2CeO4 nano-sized phosphors, was successfully synthesized through citrate-gel method, after optimizing preparation conditions.
首次采用柠檬酸-凝胶法,通过优化制备工艺条件,成功地合成了Sr_2CeO_4及金属离子掺杂的Sr_2CeO_4纳米荧光粉,并且应用X射线衍射、拉曼光谱、红外光谱、热重分析、紫外-可见吸收光谱、荧光光谱、透射电镜、原子力显微镜等先进测试方法进行了表征,得到了以下主要结论: 在合成Sr_2CeO_4纳米荧光体时,根据材料的晶体结构和发光性能,柠檬酸-凝胶法优于高温固相法。
2)  citric acid gel method
柠檬酸凝胶法
1.
Single-phase Ba_2Ti_9O_(20) was prepared by citric acid gel method with two-step heat-treatment.
采用柠檬酸凝胶法两步热处理工艺制备了单相Ba_2Ti_9O_(20)。
3)  citrate-gel method
柠檬酸盐凝胶法
1.
Nano-maghemite with 20~30 nm particles were prepared by citrate-gel method through doping Na~(+).
用柠檬酸盐凝胶法通过掺杂钠离子制备了粒径在20~30 nm的γ-氧化铁纳米粒子。
2.
The citrate-gel method was applied to prepare nanocrystalline CoAl_2O_4 spinel powders in an attempt to reduce the temperature of preparation and the calcination times.
铝酸钴(CoAl2O4)是目前世界上最耐候、耐光、耐热、耐化学品的尖晶石型钴蓝颜料,为了解决传统钴蓝制备方法存 在的能耗高、产品粒径分布不均匀、易团聚等问题,尝试采用柠檬酸盐凝胶法合成了尖晶石型CoAl2O4纳米粉体,对样品进 行了TG-DSC、XRD、SEM等分析,考察了前驱体凝胶的热分解过程,以及煅烧温度对CoAl2O4晶化程度和粒度的影响。
4)  citrate-gel process
柠檬酸盐-凝胶法
5)  citrate sol-gel method
柠檬酸盐溶胶凝胶法
1.
Ultrafine W-type ferrite powders have been synthesized by citrate sol-gel method with Sr(NO3)2,Ni(NO3)2·6H2O,Fe(NO3)3·9H2O and citric acid as raw materials.
以硝酸铁、硝酸镍、硝酸锶和柠檬酸为原料,采用柠檬酸盐溶胶凝胶法合成出W型SrNi2Fe16O27铁氧体粉末。
6)  citrate sol-gel process
柠檬酸盐溶胶-凝胶法
1.
BaTiO3 based powders with codopants were prepared by citrate sol-gel process.
实验着重研究了凝胶煅烧工艺制度对通过柠檬酸盐溶胶-凝胶法制备复合掺杂的BaTiO3基粉体,制备纳米粉体的影响。
2.
BaTiO_3 based powder with co-dopants were prepared by citrate sol-gel process.
通过柠檬酸盐溶胶-凝胶法制备复合掺杂的BaTiO3基粉体,着重研究了凝胶煅烧工艺制度对制备纳米粉体的影响。
3.
Using exfoliatable graphite,Fe(NO_3)_3,Co(NO_3)_2 and citric acid as raw materials,magnetic exfoliated graphite (MEG) was prepared by citrate sol-gel process.
采用柠檬酸盐溶胶-凝胶法,以可膨胀石墨、硝酸铁、硝酸钴、柠檬酸为原料制备磁性膨胀石墨,利用SEM、EDS、XRD和磁滞回线等对其微观形貌和磁性能进行了表征,研究了原料配比、可膨胀石墨的pH值及膨胀时间对磁性膨胀石墨的磁性能和油吸附性能的影响。
补充资料:双氯芬酸钠凝胶,芬迪凝胶
药物名称:双氯芬酸钠凝胶

英文名:

别名: 双氯芬酸钠凝胶,芬迪凝胶
适应症:
用于局部治疗,如局限性风湿病(如类风湿性关节炎、骨关节炎、脊椎炎和关节周围病变)、局限性软组织风湿病(如腱鞘炎、肩手综合征、粘液囊炎)及腱、韧带、肌肉和关节的创伤性炎症(如因扭伤、劳损和挫伤引起的炎症)等。
用量用法: 局部治疗依据疼痛部位的大小,用2~4g涂于患处,并轻摩擦,每日3~4次。
注意事项:
偶有皮肤水肿、炎症、瘙痒、皮疹等,但一般较轻,无需停药。若长期大面积涂搽本品,可能引起全身性不良反应。仅用于无破损的皮肤表面涂搽,勿接触眼和粘膜,严禁口服。对本品过敏者忌用;孕妇慎用。
规格: 瓶装或管装:0.1g/10g、0.2g/20g。




类别:解热镇痛抗炎药
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