聚酰胺的合成——N-羟基-5-降冰片烯-2,3-双甲酰亚胺的双活性酯与脂族二胺间在温和条件下的缩聚反应

<正> 在合成聚酰胺的研究中,关于由N-羟基化合物O,O′-双酰基衍生物与二元胺在温和条件下合成聚酰胺的报道较少。Overberger及ebenda首先研究了N-羟基丁二酰亚胺的双活性酯及N-羟基邻苯二甲酰亚胺的双活性酯与派嗪间的缩聚反应。Ueda、Imai等则报道了另两类活性双酯,如1-羟基苯并三氮唑的双活性酯及O,O′-间苯二甲酰双肟与二元胺间的缩聚合成聚酰胺的结果。     

α-(5-氟尿嘧啶-1-基甲基甲酰基)氨基苯丙酸的合成

以5-氟尿嘧啶-1-基乙酸、二环己基碳二酰亚胺和L-苯丙氨酸为原料,1-羟基苯并三氮唑作为辅助试剂,通过碳二亚胺法合成了一种新型的α-(5-氟尿嘧啶-1-基甲基甲酰基)氨基苯丙酸,其结构经IR和元素分析表征.     

酰亚胺及磺酰苯酰亚胺的氰甲基化新方法

二乙胺基乙腈分別与苯邻二酰亚胺、丁二酰亚胺或邻-磺酰苯酰亚胺反应后,可生成相应的N-氰甲基苯邻二酰亚胺、N-氰甲基丁二酰亚胺,N-氰甲基邻磺酰苯酰亚胺及O-氰甲基邻磺酰苯酰亚胺。酰亚胺或磺酰苯酰亚胺的氰甲基化反应活性,随氮负离子的稳定性及其酸性增强而增大。     

2-乙氧基-N-（4-甲基-2-丙基-1H-咪唑基-1）-苯甲酰胺的合成

2-乙氧基苯甲酸甲酯与水合肼发生肼解反应生成2-甲氧基苯甲酰肼(1);1与丁亚氨酸乙酯盐酸盐进行二次肼解反应制得2-乙氧基-N'-(1-亚胺丁基)苯甲酰肼盐酸盐(3);3与氯丙酮环化合成了2-乙氧基-N-(4-甲基-2-丙基-1H-咪唑基-1-)苯甲酰胺(合成伐地那非的关键中间体),总收率48%,其结构经1H NMR和MS确证.     

“一锅法”合成2-氨基-N,3-二甲基-5-卤代苯甲酰胺

报道了从3-甲基-2-氨基苯甲酸出发一锅三步合成2-氨基-N,3-二甲基-5-卤代苯甲酰胺的方法.3-甲基-2-氨基苯甲酸(1)与固体光气反应生成中间体8-甲基-2H-3,1-苯并噁嗪-2,4(1H)-二酮(2),化合物2与甲胺水溶液发生胺解反应生成2-氨基-N,3-二甲基苯甲酰胺(3),3再与氯代丁二酰亚胺(NCS)、溴代丁二酰亚胺(NBS)或碘代丁二酰亚胺(NIS)发生芳香亲电取代反应生成目标产物2-氨基-N,3-二甲基-5-卤代苯甲酰胺(4～6).整个反应过程不需分离中间产品,最终产物经减压浓缩除去有机溶剂后,直接从水中析出针状晶体,总收率达到87%～94%,较文献报道的分步法收率提高30%以上.该方法工艺操作简单、反应条件温和、反应时间短、收率高,是一条环境友好的绿色合成路线.     

二萘嵌苯二酰亚胺衍生物的半导体性质

应用密度泛函理论研究了四种二萘嵌苯二酰亚胺(PDI)(N,N'-二萘嵌苯-3,4,9,10-四羧酸二酰亚胺(1), N,N'-二(3-氯苯甲基)二萘嵌苯-3,4,9,10-四羧酸二酰亚胺(2), N,N'-二(3-氟苯甲基)二萘嵌苯-3,4,9,10-四羧酸二酰亚胺(3)和N,N'-二(3,3-二氟苯甲基)二萘嵌苯-3,4,9,10-四羧酸二酰亚胺(4))半导体材料的最高占据轨道和最低未占据轨道能量、离子化能和电子亲和能以及在电荷传导过程中的重组能. 与化合物2-4的最高占据轨道和最低未占据轨道能量变化相同, 在PDI分子外围引入氯苯甲基或氟苯甲基后导致化合物2-4的绝热电子亲和能有不同程度的增加. 应用Marcus电子传导理论, 计算了这四种半导体材料应用于有机场效应晶体管在电子传递过程中的电子耦合和迁移率. 计算结果表明:这四种化合物相对于金属金电极而言具有较小的电子注入势垒, 是优良的n型半导体材料. 计算的这四种半导体材料的电子传输迁移率分别为5.39, 0.59, 0.023和0.17 cm2·V-1·s-1. 通过研究化合物分子在还原过程中几何结构变化和在化合物3晶体中不同类型的电子传递路径, 合理地解释了化合物1-4在有机场效应晶体管电荷迁移过程中具有较高的电子迁移率.     

无溶剂超声辐射下琥珀酸二酰亚胺磺酸铈催化合成5-[(3-吲哚基)-甲基]-2,2-二甲基-1,3-二噁烷-4,6-二酮衍生物

在琥珀酸二酰亚胺磺酸铈催化下,吲哚、醛和2,2-二甲基-1,3-二噁烷-4,6-二酮在无溶剂条件下超声辐射合成了10种5-[(3-吲哚基)-甲基]-2,2-二甲基-1,3-二噁烷-4,6-二酮衍生物.当催化剂的用量为3%(摩尔分数)时,30℃反应30~60 min,收率为68.9%~96.7%.此外,还探讨了琥珀酸二酰亚胺磺酸铈的催化机理.该方法具有条件温和,反应时间短且收率高的优点.催化剂邻琥珀酸二酰亚胺磺酸铈对环境友好且可循环利用.     

C(3)-酯基取代的1,5-苯并硫氮杂卓的合成、晶体结构及抑菌和构效关系的研究

设计、合成了三类C(3)酯基取代的1,5-苯并硫氮杂卓衍生物: 2,3/2,5-二氢和2,3,4,5-四氢-1,5-苯并硫氮杂卓-3-甲酸乙酯, 采用元素分析、IR、MS、1H NMR及X射线衍射法确定了标题化合物的分子结构．结构分析表明, 2,5-二氢-1,5-苯并硫氮杂卓-3-甲酸乙酯属单斜晶系, C2/c空间群, 晶胞参数为: a＝2.0319(4) nm, b＝1.4985(3) nm, c＝1.3659(3) nm, α＝90°, β＝120.49(3)°, γ＝90°, V＝3.5840(12) nm3, Z＝8, Dc＝1.397 g/cm3, μ＝0.351 mm－1, F(000)＝1560, R＝0.0478, Rw＝0.1304; 研究了2,3/2,5-二氢-1,5-苯并硫氮杂卓的合成反应条件, 发现该两种互变异构体分别是速度控制产物和平衡控制产物; 抑菌活性及抑真菌构效关系研究表明, 亚胺型的2,3-二氢-1,5-苯并硫氮杂卓具有明显的抑菌活性, 亚胺官能团是其抑真菌的药效团．     

萘二酰亚胺同分异构体化合物的设计合成及其单分子导电性能研究

本文设计合成了两个4-甲硫基苯乙炔基取代的1,4,5,8-萘二酰亚胺(1,4,5,8-NDI)和1,2,5,6-萘二酰亚胺(1,2,5,6-NDI)同分异构体化合物1和2,并用紫外-可见吸收光谱、电化学等手段研究了其物理化学性质.化合物1和2结构上的差异导致其物理化学性质以及单分子器件性能表现出差异.密度泛函理论(DF...     

2,1,3-苯并硒二唑与联苯二胺类共轭共聚物的金属催化法合成与表征

利用金属催化法分别合成出了2,1,3-苯并硒二唑与N,N′-二氯联苯醌二亚胺、3,3′-二甲基-N,N′-二氯联苯醌二亚胺,3,3′-二甲氧基-N,N′-二氯联苯醌二亚胺的共轭交替共聚物:聚(N,N′-联苯醌二亚胺-2,1,3-苯并硒二唑),聚(3,3′-二甲基-N,N′-联苯醌二亚胺-2,1,3-苯并硒二唑),聚(3,3′-二甲氧基-N,N′-联苯醌二亚胺-2,1,3-苯并硒二唑)。利用凝胶色谱(GPC)、红外光谱、紫外可见光谱以及循环伏安(CV)等对这三种共聚物进行了表征和性能研究。紫外可见光谱分析结果表明,这三种共聚物分别在305nm、421nm,325nm、438nm和330nm、558nm处出现吸收峰,但由于受侧基的影响,聚(3,3′-二甲氧基-N,N′-联苯醌二亚胺-2,1,3-苯并硒二唑)相对于聚(N,N′-联苯醌二亚胺-2,1,3-苯并硒二唑)和聚(3,3′-二甲基-N,N′-联苯醌二亚胺-2,1,3-苯并硒二唑)的共轭程度要高,而且共聚物链上的侧基对其电化学性能也有一定的影响。     

BICYCLO[2. 2. 1] HEPT-5-ENE-2,3-DICARBOXYLIC ANHYDRIDE CAPPED ‘PMR'''' TYPE POLYAMIDE-IMIDE

The resin solution of NA capped ‘PMR' type polyamide-imide was prepared from bicyclo [2.2.1]-hept-5-ene-2, 3-dicarboxylic acid ethyl ester,1, 2, 4-trimellitic acid-2-(or-1-) ethyl ester and 4,4'-methylenedianiline in ethanol. This resin solution is specially suitable for the preparation of compo-sites. The fiexural strength of the glass cloth reinforced plastics was 6000--7000 kg/cm~2 (RM) and4000--kg/cm~2 (260°--300℃), respectively. The result of isothermal aging for 800 hours in-dicated that this composite can be used at 26℃. The mechanism of the formation of polyamide-imide was discussed by using appropriate model compounds.     

双环[2.2.1]庚-5-烯-2,3-二羧酸酐封头的聚酰亚胺树脂及其复合材料

合成了以乙醇为溶剂,双环[2.2.1]庚-5-烯-2,3-二羧酸乙酯、二苯甲酮四酸二乙酯和4,4’-二胺基二苯甲烷为单体的“PMR型”聚酰亚胺树脂。此树脂适用于制备复合材料。300℃恒温热老化实验表明,与玻璃布复合的增强塑料可在 250℃—300℃ 下长期使用。实验证明树脂溶液是单体的酯铵盐溶液,解决了树脂溶液分层的问题。初步研究了酰胺化、酰亚胺化和交联反应的历程。     

超支化偶氮大分子重氮盐静电层-层自组装膜的制备及光响应性研究

利用超支化偶氮大分子重氮盐作为聚阳离子,与聚阴离子PSSA进行静电层-层自组装,通过紫外光谱、椭偏仪和原子力显微镜等对体系自组装过程及自组装膜的表面形貌进行了表征.在线偏振488nmAr+激光的作用下,自组装多层膜可产生明显的光致二向色性,其取向有序度约为0.02.在干涉的Ar+激光作用下,多层膜表面可形成规则的表面起伏光栅结构.     

取代肉桂酰甘氨酸酯的合成

在N-甲基吡咯烷酮(NMP)促进下,取代肉桂酸(1a^1g)与二氯亚砜(SOCl2)在20℃酰氯化反应0.5 h,再加入甘氨酸乙酯盐酸盐,在40℃下酰胺化反应4 h,n(取代肉桂酸)/n(SOCl2)/n(甘氨酸乙酯盐酸盐)=1.0/1.2/1.4,合成了一系列取代肉桂酰甘氨酸乙酯(2a^2g),其结构经1H NMR、13C NMR、IR和MS(EI)确证。并探讨了NMP促进取代肉桂酰甘氨酸乙酯反应可能的机理。     

Synthesis and "schizophrenic" micellization of double hydrophilic AB4 miktoarm star and AB diblock copolymers: structure and kinetics of micellization

Poly(N-isopropylacrylamide) (PNIPAM)-based tetrafunctional atom transfer radical polymerization (ATRP) macroinitiator (1b) was synthesized via addition reaction of mono-amino-terminated PNIPAM (1a) with glycidol, followed by esterification with excess 2-bromoisobutyryl bromide. Well-defined double hydrophilic miktoarm AB4 star copolymer, PNIPAM-b-(PDEA)4, was then synthesized by polymerizing 2-(diethylamino)ethyl methacrylate (DEA) via ATRP in 2-propanol at 45 degrees C using 1b, where PDEA was poly(2-(diethylamino)ethyl methacrylate). For comparison, PNIPAM-b-PDEA linear diblock copolymer with comparable molecular weight and composition to that of PNIPAM-b-(PDEA)4 was prepared via reversible addition-fragmentation chain transfer (RAFT) polymerization. The pH- and thermoresponsive "schizophrenic" micellization behavior of the obtained PNIPAM65-b-(PDEA63)4 miktoarm star and PNIPAM70-b-PDEA260 linear diblock copolymers were investigated by 1H NMR and laser light scattering (LLS). In acidic solution and elevated temperatures, PNIPAM-core micelles were formed; whereas at slightly alkaline conditions and room temperature, structurally inverted PDEA-core micelles were formed. The size of the PDEA-core micelles of PNIPAM65-b-(PDEA63)4 is much smaller than that of PNIPAM70-b-PDEA260. Furthermore, the pH-induced micellization kinetics of the AB4 miktoarm star and AB block copolymers were investigated by the stopped-flow light scattering technique upon a pH jump from 4 to 10. Typical kinetic traces for the micellization of both types of copolymers can be well fitted with double-exponential functions, yielding a fast (tau1) and a slow (tau2) relaxation processes. tau1 for both copolymers decreased with increasing polymer concentration. tau2 was independent of polymer concentration for PNIPAM65-b-(PDEA63)4, whereas it decreased with increasing polymer concentration for PNIPAM70-b-PDEA260. The chain architectural effects on the micellization properties and the underlying mechanisms were discussed in detail.     

Phenylethynyl-terminated Imide Oligomers Modified by Reactive Diluent for Resin Transfer Molding Application

To meet the processing requirements of resin transfer moulding(RTM)technology,reactive diluent containing m-phenylene moiety was synthesized to physically mixed with phenylethynyl terminated cooligoimides with well-designed molecular weights of 1500-2500 g/mol derived from 4,4’-(hexafluoroisopropylidene)diphthalic anhydride(6 FDA),3,4’-oxydianiline(3,4’-ODA)and m-phenylenediamine(m-PDA).This blend shows low minimum melting viscosity(<1 Pa·s)and enlarged processing temperature window(260–361℃).FPI-R-1 stays below 1 Pa·s for2 h at 270℃.The relationship between the molecular weight of the blend and its melting stability was first explored.Blending oligoimides with lower molecular weights exhibit better melting stability.Upon curing at 380℃for 2 h,the thermosetting polyimide resin demonstrates superior heat resistance(T_g=420-426℃).     

Nonleaching antibacterial glass surfaces via "Grafting Onto": the effect of the number of quaternary ammonium groups on biocidal activity

Antimicrobial surfaces were prepared using the "grafting onto" technique. Well-defined block copolymers containing poly(2-(dimethylamino)ethyl methacrylate) and poly(3-(trimethoxysilyl)propyl methacrylate) segments (PDMAEMA/PTMSPMA) and corresponding random copolymers were prepared via atom transfer radical polymerization (ATRP), followed by covalent attachment to a glass surface through reaction of the trimethoxysilyl groups with surface silanol groups. The density of quaternary ammonium (QA) groups available to bind small molecules in solution increased with polymer solution concentration and immobilization time. For the PDMAEMA 97- b-PTMSPMA xdiblock copolymers with a fixed length of PDMAEMA segment (degree of polymerization (DP) = 97) and varied lengths of PTMSPMA segments, maximal available surface charge was observed when the ratio of DP PDMAEMA to DP PTMSPMA was 5:1. The tertiary amino groups in immobilized PDMAEMA segments were reacted with ethyl bromide to form QA groups. Alternatively, block copolymers with prequaternized PDMAEMA segments were attached to surfaces. Biocidal activity of the surfaces with grafted polymers versus Escherichia coli ( E. coli) increased with the density of available QA units on the surface. The number of bacteria killed by the surface increased from 0.06 x 10(5) units/cm2 to 0.6 x 10(5) units/cm2, when the density of surface QA increased from 1.0 x 10(14) unit/cm2 to 6.0 x 10(14) unit/cm2. The killing efficiency of QA on all surfaces was similar with approximately 1 x 10(10) units of QA needed to kill one bacterium. The AFM analysis indicated that grafting onto the surface resulted in small patches of highly concentrated polymer. These patches appear to increase the killing efficiency as compared to surfaces prepared by grafting onto with the same average polymer density but with a uniform distribution.     

Biocatalytic Asymmetric Synthesis of (1R, 2S)-N-Boc-vinyl-ACCA Ethyl Ester with a Newly Isolated <Emphasis Type="Italic">Sphingomonas aquatilis</Emphasis>

1-amino cyclopropane-1-carboxylic acid (ACCA) and its derivatives are essential pharmacophoric unit that widely used in drug research and development. Specifically, (1R, 2S)-N-Boc-vinyl-ACCA ethyl ester (vinyl-ACCA) is a key chiral intermediate in the synthesis of highly potent hepatitis C virus (HCV) NS3/4A protease inhibitors such as asunaprevir and simeprevir. Developing strategies for the asymmetric synthesis of vinyl-ACCA is thus extremely high demand. In this study, 378 bacterial strains were isolated from soil samples using N-Boc-vinyl-ACCA ethyl ester as the sole carbon source and were screened for esterase activity. Fourteen of which worked effectively for the asymmetric synthesis of (1R, 2S)-N-Boc-1-vinyl ACCA ethyl ester. The strain CY-2, identified as Sphingomonas aquatilis, which showed the highest stability and enantioselectivity was selected as whole cell biocatalyst for further study. A systematic study of all factors influencing the enzymatic hydrolysis was performed. Under optimized conditions, resolution of rac-vinyl-ACCA to (1R, 2S)-N-Boc-1-vinyl ACCA ethyl ester with 88.2% ee and 62.4% conversion (E = 9) was achieved. Besides, S. aquatilis was also used to transform other 10 different substrates. Notably, it was found that 7 of them could be stereoselectively hydrolyzed, especially for (1R,2S)-1-amino-vinyl-ACCA ethyl ester hydrochloride (99.6% ee, E>200). Our investigations provide a new efficient whole cell biocatalyst for resolution of ACCA and might be developed for industry application.     

The preparation of a new "safety catch" ester linker for solid-phase synthesis

A new "safety catch" linker for esters has been synthesized on polystyrene resin. This 2-tert-butoxyphenol resin 10 may be acylated to give a relatively stable ester that will allow nucleophilic chemistry without reaction at the linking ester group. Removal of the tert-butyl group with acid unmasks a highly reactive 2-hydroxyphenyl ester that reacts readily with nucleophiles to cause release of the product from the resin. This sequence has been exemplified by acylating the resin with various bromo acids, carrying out nucleophilic displacements with thiols, phenols, or amines, activating the ester with trifluoroacetic acid and cleaving from the resin with amines to give the (nucleophile) substituted carboxamides in high yield and purity. Kinetic studies with a model ester revealed half-lives for reaction with morpholine of 119 h for the tert-butoxyphenyl ester and 1 min for the corresponding phenol.     

Reaction of o-phenylenediamine with acetoacetic and α-chloroacetoacetic esters

The reactivities of acetoacetic and -chloroacetoacetic esters in the reaction with o-phenylenediamine are compared. In contrast to the available data, it was established that in polyphosphoric aicd (PPA) acetoacetic ester is converted to 4-methyl-2,3-dihydro-1H-1,5-benzodiazepin-2-one and ethyl 3-(2-aminoanilino)-crotonate, while chloroacetoacetic ester is converted to 2-methylbenzimidazole. At 20 °C chloroacetoacetic ester is converted to ethyl 2-chloro-3-(2-aminoanilino)crotonate. The conversion of this ester to 2-methyl-3-ethoxy-2,3-dihydro-1H-1,5-benzodiazepin-2-one was studied.Translated from Khimiya Geterotsiklicheskikh Soedinenii, No. 9, pp. 1255–1259, September, 1981.