1)  TGFα
TGFα
1.
The Effective of ShuganheweiPill on the EGF and TGFα of the Gastric Mucosal Tissue and Blood of Stress-Induced Rats;
疏肝和胃丸对应激大鼠胃黏膜组织血清EGF和TGFα含量的影响
2.
The Representation and Significance of CylinD_1,TGFαin Gastric Carcinoma and Precancerous Lesion;
胃癌及癌前病变中Cylin D_1、TGFα的表达及意义
3.
EFFECT OF TGFα ON PROLIFERATION AND ERK EXPRESSION OF SMMC-7721 CELLS;
TGFα对肝癌细胞SMMC-7721增殖和ERK蛋白的影响
2)  EGF?TGFα?EGFR
EGF、TGFα、EGFR
3)  TG
TG
1.
Application of TGA in the Study of Refined Coal-tar Pitch;
TGA在精制沥青研究中的应用
2.
Study on the Non-isothermal Decomposition Kinetics of Sodium Polystyrene Sulfonate by TG Method;
用TG法研究聚苯乙烯磺酸钠阳离子交换树脂热分解反应的非等温动力学
3.
Study of Nanocrystalline La_(0.7)Sr_(0.3)MnO_3 Gel Crystallization Process by TG-FTIR;
利用TG-FTIR联用仪研究纳米晶La_(0·7)Sr_(0·3)MnO_3的凝胶晶化过程
4)  a-TG
a-TG
1.
Methods Serum levels of two subtypes of ATAa-TPO,a-TG were determined by enzyme linked immunosorbent assays(ELISA) in 80 patients with histories of unexplained RSA(study group) and 40 normal healthy women(control group).
方法采用酶联免疫吸附法(ELISA)对80例反复自然流产患者血清进行ATA的两种亚型a-TPO和a-TG的检测,并以40例健康育龄妇女为对照。
5)  TG/MS
TG/MS
1.
Establishment and application of a TG/MS system;
热重质谱联用(TG/MS)系统的建立和应用
2.
The change of agglomerate phase fo TNAD in the thermal decomposition process was analysed by FT-IR and TG/MS, the thermal decomposition mechanism and the process of the chemical reaction were affirmed.
采用高压差示扫描量热法(PDSC)、热重分析法(TGA)和快速扫描傅里叶变换红外光谱法(FT-IR),研究了四硝基并哌嗪(TNAD)的热分解机理,并采用FT-IR技术和TG/MS(质谱)联用分析了TNAD热分解过程的凝聚相变化,确认其热分解机理与化学反应过程。
6)  TG-FTIR
TG-FTIR
1.
Pyrolysis of Pine Sawdust by TG-FTIR Analysis;
TG-FTIR联用下生物质废弃物的热解特性研究
2.
Study on Hegang Bituminous Coal Pyrolysis by TG-FTIR;
应用TG-FTIR研究鹤岗烟煤的热解特性
3.
A TG-FTIR study on catalytic pyrolysis of coal;
应用TG-FTIR联用研究催化剂对煤热解的影响
参考词条
补充资料:α,α,α,α',α',α'-六氯对二甲苯
分子式:C8H4Cl6
分子量:312.84
CAS号:68-36-0

性质:白色针状或粉末状结晶。熔点108-110℃。溶于二甲苯、石油醚、乙醇、植物油,不溶于水。无味,有特殊臭味,遇光、碱会缓慢分解而呈酸性。

制备方法:以混二甲苯为原料,先用98%硫酸磺化,使间二甲苯生成间二甲苯磺酸盐。从磺化反应物中分离出含邻、对二甲苯的油层,水洗、干燥,减压蒸馏出邻、对二甲苯。间二甲苯磺酸盐经水解可得副产品间二甲苯。由邻、对二甲苯经氯化即得1,4-双(三氯甲基)苯:在反应锅中投入邻、对二甲苯,再加入过氧化苯甲酰和三乙醇胺。加热到70℃后,在光照射下导入氯气,于70-80℃反应6h,再升温至100-120℃继续反应,至反应液相对密度达到1.560-1.580(65℃),即为反应终点,停止通氯,减压脱除余氯。降温至5℃,过滤,洗涤得粗品,重结晶,活性炭脱色得成品。

用途:抗血吸虫病药物。对肝吸虫病、阿米巴原虫病、疟疾以及肠道线虫有一定疗效。但对神经系统的不良反应较多见,且延迟反应持续较久。

说明:补充资料仅用于学习参考,请勿用于其它任何用途。