1) 3-pyridyl ether
3-吡啶基醚
1.
Using hologram quantitative structure-activity relationship (HQSAR) techniques, the QSAR of 28 3-pyridyl ether compounds was investigated between their binding affinity to α4β2 nicotinic acetylcho-line receptor and the structure of these compounds.
采用分子全息定量构效关系(HQSAR,hologramquantitativestructure-activityrelationship)方法,研究了28个3-吡啶基醚类化合物对乙酰胆碱α4β2受体的亲和性与它们的分子结构之间的关系,讨论了分子碎片大小、分子碎片亚结构类型以及分子全息长度对QSAR的影响,得到了较好的HQSAR模型,模型的交叉验证系数平方q2=0。
2) ligands of 3 pydiyl ethers
3-吡啶基醚类配体
3) 3-picoline
3-甲基吡啶
1.
Advances in research on catalysts for the ammoxidation of 3-picoline;
3-甲基吡啶氨氧化催化剂的研究进展
2.
Electrooxidation of 3-picoline in different organics/water mixed solvents;
3-甲基吡啶在有机物/水混合溶剂中的电氧化
3.
Electrooxidation of 3-Picoline in Acetone/Water Mixed Solvents;
丙酮-水混合溶剂中3-甲基吡啶的电氧化
4) 3-aminopyridine
3-氨基吡啶
1.
A new chelating resin containing bis(sulfoxide and 3-aminopyridine) was synthesized.
合成了含双亚砜及3-氨基吡啶的新型螯合树脂,并进行了红外光谱、比表面积、孔径和元素分析表征。
2.
3-aminopyridine was prepared from the Hofmann reaction of nicotinic amide in 93% yield.
烟酰胺通过Hofmann降解制得3-氨基吡啶,产率为93%。
5) 3-cyanopyridine
3-氰基吡啶
1.
Conversion of 3-cyanopyridine to nicotinic acid by nitrilase in Rhodococcus rhodochrous tg1-A6;
Rhodococcus rhodochrous tg1-A6腈水解酶催化3-氰基吡啶合成烟酸的研究
2.
Determination of nicotinic acid,nicotinamide and 3-cyanopyridine in industrial effluent using high performance liquid chromatography;
工业废水中烟酸、烟酰胺和3-氰基吡啶的HPLC检测
3.
Summary of the Research on 3-cyanopyridine Synthesis and Ammoxidation Catalyst
3-氰基吡啶合成路线及其催化剂研究概述
6) 3-methyl pyridine
3-甲基吡啶
1.
The manufacture process of nicotinic acid based on ammonia oxidation method, which is introduced in this article, reached 99% conversion of 3-methyl pyridine.
本文介绍的基于氨氧化法生产烟酸的工艺,选择了适当的复合催化剂,使原料3-甲基吡啶转化率可达99%,技术水平达到国外先进水平。
补充资料:苯基(4-吡啶基)醚
分子式:C11H9NO
分子量:171.20
CAS号:4783-86-2
性质:暂无
制备方法:用吡啶与氯化亚硫酰反应,生成N-(4-吡啶基)吡啶盐酸盐,然后与苯酚反应制得该品。
用途:抗菌剂奥替尼丁的中间体。
分子量:171.20
CAS号:4783-86-2
性质:暂无
制备方法:用吡啶与氯化亚硫酰反应,生成N-(4-吡啶基)吡啶盐酸盐,然后与苯酚反应制得该品。
用途:抗菌剂奥替尼丁的中间体。
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