1)ZJ0712苯醚菌酯
1.Determination of sensitivity baseline of Sphaerotheca fuligine to ZJ0712 and assessment of Its laboratory resistant risk;黄瓜白粉病菌对苯醚菌酯敏感基线的建立及室内抗药性风险评价
英文短句/例句
1.Bioactivity of "ZJ0712 and Tebuconazole" on the Control of Powder Mildew苯醚菌酯·戊唑醇防治白粉病生物活性
2.Bioactivity of ZJ0712 and Propamocarb on the Control of Downy Mildew苯醚菌酯·霜霉威防治黄瓜霜霉病生物活性
3.Induction and Characteristics of Fungicide ZJ0712-resistant Blumeria graminis Mutants抗苯醚菌酯(ZJ0712)小麦白粉病菌突变体的诱导及其生物学特性
4.chlorinated hydroxy diphenyl ether氧化羟基二苯醚(杀菌剂)
5.Flame Retardant Modification of Polyether Polyurethane with TBPGE三溴苯基缩水甘油醚对聚醚聚氨酯的阻燃改性
6.CATALYTIC SYNTHESIS OF PHENETOLE BY ETHYLATION OF PHENOL WITH DIETHYL CARBONATE碳酸二乙酯与苯酚催化合成苯乙醚的研究
7.Synthesis of Anisole from Phenol with Dimethyl Carbonate over Inorganic Nitrate硝酸盐催化碳酸二甲酯与苯酚合成苯甲醚
8.Selective synthesis of phenetol by ethylation of phenol with diethyl carbonate碳酸二乙酯与苯酚选择性合成苯乙醚的研究
9.Study on O-hydroxy by ethylation of diethyl carbonate and catechol碳酸二乙酯乙基化邻苯二酚合成邻羟基苯乙醚
10.Synthesis of Phenetole by Ethylation of Phenol with Diethyl Carbonate over K_2CO_3/NaY CatalystK_2CO_3/NaY催化苯酚与碳酸二乙酯合成苯乙醚
11.Study on the Preparation of the Herbicide of Fluo-Substituted Diphenyl Ethers;含氟二苯醚类除草剂氯氟草醚乙酯的合成工艺研究
12.Synthesis of Conducting PAn/APU Composite Membranes聚苯胺/阴离子聚醚型聚氨酯导电复合膜的制备
13.Synthesis and Thermo Analysis of Comb-shaped Polystyrene Epoxy-ether Polyurethane;梳形聚苯乙烯环氧醚聚氨酯合成与热分析
14.SYNTHESIS OF p-NITROANISOLE WITH DIETHYL CARBONATE AS ETHYLATION REAGENT碳酸二乙酯作为乙基化试剂合成对硝基苯乙醚
15.SYNTHESIS OF 1,2-DIETHOXYBENZENE FROM CATECHOL AND DIETHYL CARBONATE OVER KOH/AC氢氧化钾/活性炭催化邻苯二酚与碳酸二乙酯反应合成邻苯二乙醚
16.Studies on Synthesis and Antimicrobial Activities of Halogenated Triphenyl Ethers;卤代三苯醚类化合物的合成与抑菌活性研究
17.Studies on Synthesis and Bactericidal Activities of Halogenated Polyphenyl Ethers;卤代苯醚类化合物的合成与抑菌活性研究
18.Isolation, identification and characteristics of a difenoconazole-degrading bacterial strain B2苯醚甲环唑降解菌B2的分离、鉴定及其降解特性
相关短句/例句
ZJ0712苯醚菌酯(ZJ0712)
1.Induction and Characteristics of Fungicide ZJ0712-resistant Blumeria graminis Mutants抗苯醚菌酯(ZJ0712)小麦白粉病菌突变体的诱导及其生物学特性
3)ZJ0712 and propamocarb苯醚菌酯·霜霉威
1.Among a novel fungicide mixtures screened in vivo to downy mildew, the results showed the mixtures took high bioactivity when the proportion of ZJ0712 and propamocarb was 1:20.苯醚菌酯·霜霉威复配新型杀菌剂,经室内生物活性测定结果表明:苯醚菌酯·霜霉威以质量比1:20混配时,该组合物对黄瓜霜霉病具有很高的杀菌活性。
4)95% kresoxim-methyl95%醚菌酯
1.To explore the embryotoxicity and teratogenicity of 95% kresoxim-methyl in rats, 95% kresoxim- methyl was given orally to pregnant SD rats at 50, 200, 800 mg/kg b.探讨95%醚菌酯对大鼠的胚胎毒性、致畸作用及特征。
5)kresoxim-methyl醚菌酯
1.Studies on synthesis of kresoxim-methyl as a new class of fungicides;新型杀菌剂醚菌酯的合成研究
2.50% kresoxim-methyl DF against Cercospora musae and sigatoka disease of banana;50%醚菌酯干悬浮剂对香蕉尾孢菌叶斑病的毒力测定与防治试验
3.Control of blue mould on lily bulbs inoculated with Penicillium cyclopium by kresoxim-methyl;醚菌酯对百合鳞茎青霉病的控制
6)kresoxim-methyl 50% WG50%醚菌酯
1.The application technology of kresoxim-methyl 50% WG against Fusicladium pirinum was assessed in the field.对具有保护和治疗双重功效的仿生性杀菌剂50%醚菌酯(翠贝)水分散粒剂对梨黑星病的应用技术进行了探讨。
延伸阅读
腈苯苯醚菊酯CAS:51630-58-1分子式:C25H22ClNO3分子质量:419.920中文名称:氰戊菊酯 腈苯苯醚菊酯 敌虫菊酯 戊酸氰醚酯 速灭杀丁 杀灭菊酯 (R,S)-α-氰基-3-苯氧苄基(R,S)-2-(4-氯苯基)-3-甲基丁酸酯 氰戊菊酯乳油 腈氯苯苯醚菊酯 α-氰基-3-苯氧基苄基2-(4-氯苯基)-3-四基丁酸酯 中西杀灭菊酯 速灭菊酯英文名称:aqmatrine balmark belmark Benzeneacetic acid, 4-chloro-.alpha.-(1-methylethyl)-, cyano (3-phenoxyphenyl)-methyl ester Fenvalerate (R,S)-.alpha.-Cyano-3-phenoxybenzyl(R,S)-2-(4-chlorophenyl)-3-methylbutyric ester 4-chloro-alpha-(1-methylethyl)-benzeneacetic aci cyano(3-phenoxyphenyl)meth性状描述:该品为四种旋光异构体的混合物,微黄色透明油状液体。沸点300℃(4.9kPa),相对密度1.175(25/25℃),折光率1.5533。20℃的蒸气压为3.1×10-8kPa,25℃的蒸气压为3.7×10-8kPa。20℃的溶解度:水<1mg/L;已烷77g/L、丙酮、乙醇、氯仿、二甲苯、环已酮均大于450g/L。热稳定性好,75℃放置100h时无明显分解;在酸性条件下稳定,在pH>8的碱性介质中不稳定。生产方法:由对氯氰苄经烷基化反应;水解;氯化制备α-异丙基对氯苯基乙酰氯,再与间苯氧基甲醛[39515-51-0]及氰化钠反应制得该品。 1.烷基化,α-异丙基对氯苯基乙腈的制备将氯氰苄,苯磺酸异丙酯,氢氧化钠按摩尔比1:1.1:3配料加入石油醚中,在70℃左右搅拌反应12h。经水洗、干燥、脱溶后再进行减压蒸馏,收集100-110℃(0.04-0.08kPa)馏分,即得α-异丙基对氯苯基乙腈。含量90%,收率92%以下。烷基化剂苯磺酸异丙酯在反应中转化为苯磺酰内,可回收制备苯酚。烷基化剂也可采用溴代异丙烷或氯代异丙烷,在强碱存在下反应。 2.水解,α-异丙基对氯苯基乙酸的制备α-异丙基对氯苯基乙腈与65%的硫酸按摩尔比1:1.3混合,加热至140-145℃反应11h。用溶剂萃取,分除酸层,再经水洗,脱溶,冷却结晶得α-异丙基对氯苯基乙酸,含量90%,熔点85-87℃,收率90%。 3.氯化,α-异丙基对氯苯基乙酰氯的制备α-异丙基对氯苯基乙酰氯和五氯化磷按摩尔比1:1.1混合,搅拌升温到130℃,在130-140℃反应1h。冷却排除生成的氯化氢,蒸出副产的三氯氧磷后,减压蒸馏,收集100-103℃(0.4-0.47kPa)馏分,即得α-异丙基对氯苯基乙酰氯,含量95%以上,收率95%以上。 4.腈氯苯苯醚菊酯的制备将氰化钠,间苯氧基苯甲醛,α-异丙基对氯苯基乙酰氯按摩尔比1.1:1:1.05依次投入水中,使氰化钠水溶液的浓度为25%。在30-35℃搅拌反应12h。用溶剂萃取,水洗,干燥,减压脱除溶剂后即得腈氯苯苯醚菊酯。原油含量90%以上,收率90%以上。按 GB6694-86,原油的浅棕色至红棕色粘稠液体,一级品有效成分含量≥92.0%,二级品≥85.0%,三级品≥80.0%。 原料消耗定额:对氯苯乙腈550kg/t;溴代异丙烷600kg/t;季铵盐相转移催化剂90kg/t;氯化亚砜480kg/t;间苯氧基苯甲醛580kg/t。氰化钠190kg/t。用途:该品为广谱高效杀虫剂,作用迅速,击倒力强,以角杀为主,也有胃毒作用,可防治多种棉花害虫,如棉铃虫,棉蚜等,广泛用于防治烟草、大豆、玉米、果树、蔬菜的害虫,也可用于防治家畜和仓储等方面的害虫。 该品使用量很少,一般防治棉花害虫每亩用有效成分4-10g,防治烟草害虫每亩用有效成分3-10g,防治玉米和其他谷类害虫用量一般为每亩用有产成分2-10g。 腈氯苯苯醚菊酯商品化以后,推广使用很快,已挤入传统有机磷;有机氯杀虫剂市场,现在大多数用于棉花,颇受欢迎。由于它是拟除虫菊酯杀虫剂的几个品种中生产成本最低的一种,因此竞争能力较强,发展前景良好。 大鼠口服LD50为451mg/kg,小鼠100-300mg/kg。
