1) carbonization-decarboxylation
碳化脱羧
1.
Adopting carbonization-decarboxylation and sulfuric acid absorption technology,nicotine can be extracted from tobacco of inferior quality.
在密闭容器中,控制温度540~550℃,使低、次烟叶碳化脱羧。
2) halcxiecarboxylation
脱羧卤化
3) oxidative decarboxylation
氧化脱羧
1.
We found that using ammonium persulfate as a oxidant and water/CHCl3 as solvents, N-aroylglycine underwent oxidative decarboxylation to afford N-formylbenzamides at 60°C.
本论文对N-芳酰基甘氨酸在银催化下的氧化脱羧反应进行了研究。
4) photochemical decarboxylation
光化脱羧
5) IAA conjugation/decarboxylation
IAA钝化/脱羧
6) oxidation and decarburization
氧化脱碳
1.
The best ratio of coating was optimized by orthogonal experiment, the optimal coating could prevent oxidation and decarburization of 60Si2Mn spring steel at high temperature effectively, the mainly composition of the coating is attapulgite, in addition to some ancillary materials.
以凹凸棒石粘土为主体,添加一些辅助材料,运用正交实验优化出能够有效地防止60Si2Mn弹簧钢在高温下氧化脱碳的最佳配比涂料。
补充资料:胺前体摄取和脱羧化细胞
胺前体摄取和脱羧化细胞
amine precursor uptake and decarboxylation cell
简称“APUD细胞”。指在生物化学和细胞化学上具有以下共同特性的细胞,即能够摄取胺的前身物质,脱去其羧基,并转为具有活性的胺或肽。它所产生的活性胺类物质和活性肽类物质能够发挥激素或神经介质的作用。APUD细胞不仅存在于胃、肠、胰,下丘脑、脑垂体、甲状腺、动脉体、胸腺、肺、肾上腺髓质、交感神经节等部位也同样有APUD细胞,构成APUD系统。
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