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1.
混合含氟对甲苄醇类菊酯的合成及其杀虫活性   总被引:1,自引:0,他引:1  
杜劲梅  陈震  邹新琢 《有机化学》2004,24(9):1122-1124
报道了4种混合含氟对甲苄醇类拟除虫菊酯的新化合物,即三氟甲基氯菊酸、(±)-cis-二氯菊酸、(±)-trans-二氯菊酸、( )-trans-第一菊酸的含氟对甲苄酯的合成.生物活性测试的结果表明这些化合物对淡色库蚊四龄孑孓显示出较高的杀虫活性.  相似文献   

2.
价廉易得的L-亮氨酸先以苄基同时保护氨基及羧基得(S)-2-(二苄胺基)-4-甲基戊酸苄酯,进而在碱性条件下与乙腈发生亲核取代反应得(S)-4-(二苄胺基)-6-甲基-3-氧代庚腈,再经硼氢化钠选择性还原羰基得(3S,4S)-4-(二苄胺基)-3-羟基-6-甲基庚腈,用双氧水氧化得(3S,4S)-4-(二苄胺基)-3-羟基-6-甲基庚酸,最后在Pd(OH)2/C-H2作用下脱掉苄基得到(3S,4S)-4-氨基-3-羟基-6-甲基庚酸,即(3S,4S)-statine。整个合成路线总产率为33.6%。  相似文献   

3.
在浓硫酸和3-巯基丙酸催化下,3'-三氟甲基苯基-2,2,2-三氟苯乙酮(1)和甲苯于40~50℃下缩合反应8 h,制得中间体-1,1-二(4-甲基苯基)-1-(3'-三氟甲基苯基)-2,2,2-三氟甲基乙烷(2),继而在光照和N-溴代丁二酰亚胺促进下,将中间体氧化得到二羧酸-1,1-二(4-羧基苯基)-1-(3'-三...  相似文献   

4.
在对3-三氟甲基-1,1'-联苯类衍生物类化合物进行CoMFA计算的基础上,设计合成了化合物6-甲基-4-(3-三氟甲基苯基)-3(2H)-哒嗪酮(T-1),分别采用小杯法、浮萍法和盆栽法对其除草活性进行了较详细的研究,发现化合物T-1具有很好的白化活性和除草效果.研究了T-1的合成路线,实施了三条完全不同的路线进行合成,比较了三条路线的优缺点.  相似文献   

5.
设计了一种化学发光免疫分析试剂吖啶酯的合成新路线,以二苯胺为原料合成吖啶-9-羧酸,经酰氯化后与3-(4-羟基苯基)-丙酸-N-羟基琥珀酰亚胺酯反应得4-(2-琥珀酰亚胺基氧羰基乙基)苯基-9-吖啶羧酸酯,最后与氟磺酸甲酯反应即得4-(2-琥珀酰亚胺基氧羰基)苯基-10-甲基吖啶-9-羧酸酯氟磺酸盐(俗称吖啶酯).  相似文献   

6.
在浓硫酸和3-巯基丙酸催化下,3′-三氟甲基苯基-2,2,2-三氟苯乙酮(1)和甲苯于40~50℃下缩合反应8 h,制得中间体-1,1-二(4-甲基苯基)-1-(3′-三氟甲基苯基)-2,2,2-三氟甲基乙烷(2),继而在光照和N-溴代丁二酰亚胺促进下,将中间体氧化得到二羧酸-1,1-二(4-羧基苯基)-1-(3′-三氟甲基苯基)-2,2,2-三氟甲基乙烷(3),二步反应总收率为77.4%.采用Yamazaki体系,3和9,9-二[(4-氨基苯氧基)苯基]呫吨进行溶液亲核缩聚反应,制得了一种高分子量的(数均分子量为43000,分子量分布为1.8)新型含三氟甲基和呫吨结构的聚酰胺.该聚酰胺为非晶态结构并具有良好的透光率(λcutoff=330 nm),其玻璃化转变温度(Tg)为242℃,在氮气气氛中5%的热失重温度(Td5)为465℃,800℃时的残炭率为50%.聚合物易溶于N,N-二甲基乙酰胺(DMAc)、N-甲基吡咯烷酮(NMP)、间甲酚、吡啶(Py)和四氢呋喃(THF)等有机溶剂中,并可浇注得到韧性好和透明的薄膜,其拉伸强度为85 MPa,拉伸模量为2.0 GPa,断裂伸长率为10%.同时,该聚合物的体积电阻、表面电阻和介电常数分别为2.85×1015Ωcm,4.23×1014Ω和3.55(100 Hz),呈现了良好的电绝缘性能.  相似文献   

7.
微波辐射下2-[4-二-(4-氟苯)甲基]哌嗪乙酰腙化合物的合成   总被引:3,自引:0,他引:3  
李清寒  赵志刚 《有机化学》2009,29(1):119-122
微波辐射条件下, 以丙酮作溶剂, 1-[二-(4-氟苯)甲基]哌嗪与氯乙酸乙酯反应得到2-[二-(4-氟苯)甲基]哌嗪乙酸乙酯(1), 1与水合肼在微波辐射条件下反应得到2-[二-(4-氟苯)甲基]哌嗪乙酰肼(2), 进一步在微波辐射条件下由2-[二- (4-氟苯)甲基]哌嗪乙酰肼(2)与取代芳香醛反应制得目标化合物3a~3f. 合成的6个目标化合物通过熔点测定和质谱、红外光谱、核磁共振氢谱分析、元素分析对其结构进行确证.  相似文献   

8.
二苯醚;3-(2-氯-4-三氟甲基苯氧基)-N-杂环基苯甲酰胺的合成与植物生长调节活性  相似文献   

9.
以4-溴-3-氟苯胺为原料,用氯甲酸苄酯保护氨基后,采用一锅两步法制得关键中间体--N-苄氧羰基-3-氟-4-[2-(2-甲基四唑-5-基)吡啶-5-基]苯胺(6); 6在二异丙基氨基锂作用下与(R)-丁酸缩水甘油酯经环合反应合成了泰地唑胺,总收率53.2%,含量98.5%,其结构经1H NMR和LC-MS确证。  相似文献   

10.
以1-(三氟甲基)-1,2-苯碘酰-3(1H)-酮为三氟甲基源,并以2-氨基-5-溴吡啶为三氟甲基化底物,采用响应面分析法对合成工艺进行了分析优化,确定了最佳反应条件为:反应时间4 h,催化剂用量0.16 eq,反应温度50℃.经过3次验证实验,其平均收率为87%.最后继续合成了多个三氟甲基杂环芳香胺,且化合物结构经1...  相似文献   

11.
A new and efficient synthesis for the preparation of novel 4-fluoro-2H-pyrazol-3-ylamines is described. It involves the reaction of an acyl chloride with fluoroacetonitrile and sequential ring closure of the α-fluoro-β-ketonitrile with hydrazine. Utilizing this synthetic protocol, we have synthesized a variety of 4-fluoro-2H-pyrazol-3-ylamines with different steric and electronic demands.  相似文献   

12.
The title compound ethyl 2-(6-(1,3-dioxo-4,5,6,7-tetrahydro-1H-isoindol-2(3H)-yl)-7-fluoro-3-oxo-2H-benzo[b][1,4]oxazin-4(3H)-yl) butanoate 3 was synthesized by the reaction of ethyl 2-(6-amino-7-fluoro-3-oxo-2H-benzo[b][1,4]oxazin-4(3H)-yl) butanoate with 4,5,6,7-tetraydrophthalic anhydride,and its structure was determined by X-ray single-crystal diffraction.The crystal belongs to the monoclinic system,space group P21/n with a = 9.3469(2),b = 16.7715(5),c = 13.7153(4) ,β = 104.9680(10)°,μ = 0.107 mm-1,Mr = 430.42,V = 2077.08(10) 3,Z = 4,Dc = 1.376 g/cm3,F(000) = 904,T = 296(2) K,R = 0.0508 and wR = 0.1478.  相似文献   

13.
以2,3-二氟-5-氯吡啶为原料,依次经取代和还原反应制得2-取代氨基-3-氟吡啶化合物(2a~2g); 2a~2g与正丁基锂及硼酸三异丙酯经有机锂化法制得相应的硼酸化合物(3a~3g); 3a~3g分别与氟化氢钾经取代反应合成了7个新型的2-取代氨基-3-氟-4-吡啶氟硼酸钾盐,其结构经1H NMR, 13C NMR, IR, ESI-MS和元素分析表征。  相似文献   

14.
蔡汉成  尹端沚  张岚  汪勇先 《有机化学》2006,26(12):1709-1713
报道了2-氨基-6-氟-9-(4-羟基-3-羟甲基丁基)嘌呤(1)的合成, 通过对起始原料2-氨基-6-氯-9-(4-乙酰氧基-3-乙酰氧甲基丁基)嘌呤(2)水解脱去乙酰基, 得到2-氨基-6-氯-9-(4-羟基-3-羟甲基丁基)嘌呤(3). 化合物3与三甲胺乙醇溶液在混合溶剂[V(THF)∶V(DMF)=3∶1]中反应得到相应的氯化铵盐4, 然后与KF在DMF溶剂中反应, 得到化合物1. 产品经UV-vis, IR, 1H NMR, 19F NMR和MS表征. 考察了反应温度、氟化试剂等因素对氟化反应的影响, 为6位含氟的嘌呤核苷类化合物的合成提供了一种直接、简易的新方法.  相似文献   

15.
以4-羟基-L-脯氨酸为原料,经Cbz保护、偶联、Mitsunobu反应和水解合成了抗肿瘤新药Birinapant的重要中间体--(2S,4S)-苯甲基-2-(6-氟-1H-吲哚-3-羰基)-4-羟基吡咯烷-1-羧酸酯,总收率83%,其结构经1H NMR和ESI-MS确证。  相似文献   

16.
The synthesis and “living” cationic polymerization of 3-fluoro-4′-(11-vinyloxyundecany-loxy)-4-biphenylyl (2R,3S)-2-fluoro-3-methylpentanoate ( 12-11 ) and 3-fluoro-4′-(8-vi-nyloxyoctyloxy)-4-biphenylyl (2R,3S)-2-fluoro-3-methylpentanoate ( 12-8 ) are presented. Poly ( 12-11 )s and poly ( 12-8 )s with degrees of polymerization from 4.0 to 16.5 and poly-dispersities ≤ 1.13 have been synthesized and characterized by differential scanning cal-orimetry (DSC) and thermal optical polarized microscopy. Over the entire range of molecular weights poly ( 12-11 )s and poly ( 12-8 )s exhibit an enantiotropic SA and an unidentified SX phase. In addition, regardless of its molecular weight, poly ( 12-8 ) exhibits a S*c phase in between the SA and Sx phases. Poly ( 12-11 ) and poly ( 12-8 ) show lower transition tem-peratures and broader temperature ranges of all their mesophases as compared to the corresponding polymers without a fluorine atom on the biphenyl group. The role of the connecting group between the biphenyl and chiral group of the mesogenic unit on the phase behavior of these polymers is also discussed. Copolymers of 12-8 with (2R,3S)-2-fluoro-3-methylpentyl 4′-(11-vinyloxyundecanyloxy)biphenyl-4-carboxylate ( 13-11 ) {i.e., poly-[( 12-8 )-co-( 13-11 )] (X/Y), where X/Y represents the molar ratio of monomer 12-8 to monomer 13-11 } with DP of ca. 11 and polydispersities lower than 1.23 were also syn-thesized and characterized. Their SA and S*c mesophases exhibit continuous dependences of composition and this support the assignment of the mesophases exhibited by poly ( 12-8 ). © 1995 John Wiley & Sons, Inc.  相似文献   

17.
The title compound 2-(4-fluoro-2-(4-fluorophenoxy)phenyl)-1-(1H-1,2,4-triazol-z 1-ylmethyl)-3-methoxy-isopropy alcohol has been synthesized by the treatment of 1-[2-(4-fluoro-2-(4-fluorophenoxy)phenyl)-2,3-epoxypropyl]-1H-1,2,4-tdazole with sodium methoxide. It be-longs to orthorhombic, space group P212121, with a=9.7229(19), b=11.516(2), c=16.047(3) A, C18H17F2N3O3, Mr-361.35, V=1796.7(6) A3, Z=4, Dc=1.3359 g/cm3, F(000)=752,μ=0.106 mm-1, the final R=0.0329 and wR=0.0803 for 1821 unique reflections. The dihedral angles made by the triazole ring with two benzene rings are 43.56(3) and 54.78(2)°, respectively. The intermolecular hydrogen bond in the crystal lattice plays an important role in stabilizing the structure.  相似文献   

18.
Oxidation of 4-substituted 2,2-bis(trifluoromethyl)thietanes by m-chloroperoxybenzoic acid results in selective formation of the corresponding S-oxides in 65-86% yield. Oxidation of 4-C2H5S-2,2-bis(trifluoromethyl)thietane under mild conditions led to selective formation of 4-C2H5SO2-2,2-bis(trifluoromethyl)thietane, which under more rigorous conditions was selectively converted into trans-4-C2H5SO2-2,2-bis(trifluoromethyl)thietane-1-S-oxide. Reaction of 4-substituted 2,2-bis(trifluoromethyl)thietanes with activated aluminum powder results in a highly selective ring expansion process, producing the corresponding 5-fluoro-4-(trifluoromethyl)-2,3-dihydro-2-alkoxythiophenes in 58-93% yield. These compounds were also prepared in 61-85% yield using a “one-pot” procedure, starting from sulfur, hexafluoropropene and the corresponding vinyl ether without isolation of any intermediates. Both 2-i-C3H7O- and 2-t-C4H9O- 5-fluoro-4-(trifluoromethyl)-2,3-dihydrothiophenes were converted into 2-fluoro-3-trifluormethylthiophene by reaction with P2O5.  相似文献   

19.
The title compound 2-(4-fluoro-2-(4-fluorophenoxy)phenyl)-1-(1H-1,2,4-triazol- 1-ylmethyl)-3-methoxy-isopropy alcohol has been synthesized by the treatment of 1-[2-(4-fluoro- 2-(4-fluorophenoxy)phenyl)-2,3-epoxypropyl]-1H-1,2,4-triazole with sodium methoxide. It belongs to orthorhombic, space group P212121, with a = 9.7229(19), b = 11.516(2), c = 16.047(3)A, C18H17F2 N3O3, Mr = 361.35, V = 1796.7(6)A^3, Z = 4, Dc = 1.3359 g/cm^3, F(000) = 752, p = 0.106 mm^-1, the final R = 0.0329 and wR = 0.0803 for 1821 unique reflections. The dihedral angles made by the triazole ring with two benzene rings are 43.56(3) and 54.78(2)°, respectively. The intermolecular hydrogen bond in the crystal lattice plays an important role in stabilizing the structure.  相似文献   

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