1) salicylaldehyde
['sælisil'ældihaid]
水杨醛
1.
Syntheses and characterization of transition metal(Ⅱ) complexes of Schiff base derived from adamantaneamine and salicylaldehyde;
金刚烷胺水杨醛Schiff碱过渡金属(Ⅱ)配合物的合成与表征
2.
Application and Synthesis of Salicylaldehyde;
水杨醛的应用及合成方法
3.
Studies on the Synthesis,Structures and Photochemical Properties of Salicylaldehyde N(4)-Methyl-Thiosemicarbazone;
水杨醛缩甲基氨基硫脲的合成及其光化学性质研究
2) Salicylic Aldehyde
水杨醛
1.
Spectrophotometric Determination of Trace Copper Based on a Schiff-Base Derived from 4-Aminoantipyrine and Salicylic Aldehyde;
水杨醛缩4-氨基安替比林分光光度法测定痕量铜
2.
A method for separation and analysis of salicylic aldehyde and phenol by capillary gas chromatography was developed.
采用毛细管气相色谱法对由苯酚和甲醛为原料合成的水杨醛及反应物苯酚进行了分离分析。
3.
Four Mn() Complexes with di(N-salicylic aldehyde P-methylphene)(1), di(N-salicylic aldehyde P-chlorophene)(2), di(N-salicylic aldehyde P-nitrophene)(3), di(N-salicylic aldehyde phene)(4), are prepared and characterized by element analysis , atom absorption , IR and 1HNMR.
本文合成了种碱锰(Ⅱ)金属配合物:水杨醛缩对甲基苯胺合锰(Ⅱ)、水杨醛4Schiff-缩对氯苯胺合锰(Ⅱ)、水杨醛缩对硝基苯胺合锰(Ⅱ)及水杨醛缩苯胺合锰(Ⅱ)。
3) salicylal
['sælisilæl]
水杨醛
1.
Dehydroabietylamine salicylal Schiff base (Ⅰ) was synthesized by the reaction of dehydroabietylamine and salicylal.
脱氢枞胺与水杨醛反应合成脱氢枞胺水杨醛Schiff碱(Ⅰ),(Ⅰ)与醋酸铜反应合成了脱氢枞胺水杨醛Schiff碱铜配合物(Ⅱ)。
2.
In this paper, the factors which influence the reaction in the synthesis of salicylal from air oxidation of saligenol prepared by boric acid esterification have been investigated, such as the selection of dehydrating agent, the proportion of materials, the amount of metaformalde hyde ,the reaction temperature and the condition of oxidation.
考察了硼酸酯化法合成水杨醇再经空气氧化制备水杨醛的工艺过程中 ,脱水剂的选取、物料配比、多聚甲醛的性质和用量、反应温度和氧化反应条件对水杨醛收率的影响 ,确定了制备的适宜条
3.
The preparation of salicylal from phenol was conducted with the excessive chloroform as solvent and the tri-n-butyl amine as a phase transfer catalyst.
本文从减少副反应的角度出发,改变了Reimer-Tiemann反应操作中氢氧化钠溶液的加入方式,用过量的氯仿作溶剂,以三正丁胺为相转移催化剂,通过由本酚制备水杨酸的实验,研究了催化剂、氯伤和氢氧化钠用量以及反应时间对水杨醛产率的影响,水杨酸的产率达58%。
4) salicyaldehyde
水杨醛
1.
Five chiral Schiff-ligands were prepared from (R,R)-1,2-diaminocyclohexane and salicyaldehyde or t-butyl-, bromo-, nitro-substituted salicyaldehydes.
以(R,R)1,2环己二胺为手性源,同水杨醛及带有叔丁基,溴或硝基的取代水杨醛反应合成了5个手性席夫碱配体。
2.
Through catalytic oxidation of saligenin aqueous with the non - valuable metal catalyst HLO - 509 prepared by the author, the yield of salicyaldehyde reaches 73% ~ 76% if calculated by phenol.
在研制的非贵金属催化剂HLO-509上进行了水杨醇的液相催化氧化制水杨醛实验并取得进展。
5) salicylaldoxime
['sælisilæl'dɔksim]
水杨醛肟
1.
Study on the Polarographic Wave of Adsorptive Complex Bi(Ⅲ)-Salicylaldoxime and its Application;
Bi(Ⅲ)-水杨醛肟配合物极谱吸附波的研究及其应用
2.
Study on Salicylaldoxime Modified Carbon Paste Electrode and Application to Determination of Trace Palladium(Ⅱ) by Adsorptive Stripping Voltammetry;
水杨醛肟修饰碳糊电极吸附溶出伏安法测定钯(Ⅱ)的研究
3.
Studies on the Solid State Reactions of Coordination Compounds (LVI)——The Solid-Solid State Reaction of Salicylaldoxime with Anhydrous Nickel Acetate at Room Temperature;
固相配位化学反应研究(LVI)——无水醋酸镍与水杨醛肟在室温下的固-固相化学反应
6) tris(salicylaldehydato)aluminium
水杨醛铝
1.
A novel latent curing agent,poly(aryl ether ketone)/tris(salicylaldehydato)aluminium,wasused for curing epoxy resin.
本文提出一种新型潜伏性固化剂——聚芳醚酮/水杨醛铝,研究了这种固化体系引发环氧树脂固化的机理,固化剂对反应速度,固化物力学性能和电性能的影响,证明这种固化体系具有明显的潜伏效果,并能改善固化物的高温电性能。
补充资料:水杨醛
分子式C7H6O2,分子量112.12,又称邻羟基苯甲醛。无色或深红色油状液体。具有苦杏仁气味。熔点-7℃,沸点196.5℃、密度(20/4℃)1.167g/cm3。微溶于水,溶于乙醇、乙醚和苯中。能与蒸气一起挥发。与硫酸作用呈桔红色,与金属离子可形成有色螯合物。遇三氯化铁溶液显紫色。可被还原成水杨醇。主要用于生产香豆素,配制紫罗兰香料,还可用作杀菌剂。可由苯酚和氯仿在氢氧化钠溶液中、通过菜默尔-悌曼反应制得。
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