选用乙酰丙酮比色法直接测定。
报道了乙酰丙酮铟的合成方法。
A synthesis method of indium tris acetylacetonate is introduced.
用酚试剂法测总醛,乙酰丙酮法测甲醛。
Formaldehyde was analyzed with Nash method and total aldehyde was determined with MBTH method.
织物中甲醛的测定大多采用乙酰丙酮的显色反应。
Color reaction with acetylacetone is used to determine the formaldehyde content in fabrics.
结果表明,乙酰丙酮钕对体系的固化具有潜伏性促进作用。
The results show that AD appears to be a latent accelerator for the anhydride-cured epoxy resin system.
SBS进行催化加氢反应,采用双乙酰丙酮钴-三异丁基铝均相催化体系;
SBS carried out catalytic hydrogenation reaction, using acetone-tri-isobutyl aluminum as homogeneous catalyst.
介绍了用乙酰丙酮和三氧化二铁在催化剂的存在下合成乙酰丙酮铁的一种新方法。
The article introduced a novel synthesis method of acetylacetone iron which was synthesized by acetylacetone and Fe 2o 3 in presence of catalyst.
本文介绍了乙酰丙酮的性能、用途、制备方法及乙酸法合成乙酰丙酮的工艺路线。
The properties, application, preparation methods and process line of production of acetic acid process are introduced.
提出了一种使用乙酰丙酮作显色剂、结合分光光度法检测内墙涂料中甲醛含量的方法。
A method, combined with spectrophotometry, for determining formaldehyde content of interior architectural coatings with acetylacetone as developer was proposed.
方法采用品红亚硫酸法和乙酰丙酮法测定吊白块中甲醛含量,并计算样品中吊白块的含量。
Methods The content of formaldehyde in rongalite was determined by sulfurous acid, magenta and acetylacetone spectrophotometry respectively.
针对乙酰丙酮的应用前景和研究现状,研究了目前乙酰丙酮合成工艺中存在的问题和发展趋势。
Based on the application and study situation, problems of synthesis process of acetylacetone and its development were studied.
将毛皮中的甲醛用人造汗液萃取后,用乙酰丙酮分光光度法检测,可以定量检测分析毛皮中甲醛的含量。
The formaldehyde in fur was extracted by artificial perspiration solution and the formaldehyde content in the extracted liquor was determined by acetylacetone spectrophotometric method.
以乙酰丙酮铱为前驱体,采用金属有机化合物化学气相沉积(MOCVD)技术在钼基体上制备了铱薄膜。
Ir films were prepared by metal-organic chemical vapor deposition (MOCVD) method using iridium tri-acetylacetonate precursors on molybdenum substrates.
文中对乙酰丙酮在配制后不同时间的应用作了一系列显色试验,以探讨试剂在不同时间显色结果对甲醛含量测试结果的定量影响。
A series of color test are carried out to determine the influence of developing result at different time after preparing the acetylacetone on formaldehyde content measuring.
研究了以乙酰丙酮法作为光化学敏感反应、以硅胶颗粒作为载体而制得的可视化荧光甲醛传感器,并研究了其对甲醛的响应性能。
We report here the fluorescent sensor system for formaldehyde visualization, consisting of Nash reagent as formaldehyde recognition element and silica gel beads as its carrier.
糖酵解产生的丙酮酸在正常条件下被丙酮酸脱氢酶(PDH)转化成乙酰辅酶a (1 - 3)。
Pyruvate generated from glycolysis is converted to acetyl-CoA by pyruvate dehydrogenase (PDH) under normoxia (1-3).
在需氧呼吸中,丙酮酸脱去羧基形成乙酰辅酶a。
In aerobic respiration it is decarboxylated to form acetyl CoA.
本发明的试剂盒主要成分包 括:缓冲液、还原型辅酶、草酰乙酸、乙酰辅酶A、磷酸烯醇式丙酮酸羧化酶、丙酮酸脱氢酶及稳定剂;
The kit comprises the following main components: buffer solution, reduced coenzyme, oxaloacetic acid, acetyl coenzyme A, phosphoenolpyruvate carboxylase, pyruvate dehydrogenase and a stabilizer.
丙酮酸可以通过把葡萄糖转化为碳水化合物,通过乙酰辅酶a转化为脂肪或能量,也可转化为丙氨酸和乙醇。
Pyruvate can be converted to carbohydrates via gluconeogenesis, to fatty acids or energy through acetyl-CoA, to the amino acid alanine and to ethanol.
丙酮酸可以通过把葡萄糖转化为碳水化合物,通过乙酰辅酶a转化为脂肪或能量,也可转化为丙氨酸和乙醇。
Pyruvate can be converted to carbohydrates via gluconeogenesis, to fatty acids or energy through acetyl-CoA, to the amino acid alanine and to ethanol.
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