取代苄基吡啶类季铵盐的制备及其杀菌活性

采用吡啶或2-氨基吡啶与取代苄基衍生物反应获得3种苄基吡啶类季铵盐．即：溴化苄基吡啶盐（[Bz—Py]Br）,溴化苄基-2-氨基吡啶盐（[Bz-2-NH2Py]Br）和溴化对硝基苄基吡啶盐（[NO2Bzpy]Br]）．通过元素分析,红外光谱和电子喷雾质谱等手段进行了组成分析和结构表征,并以绿脓杆菌和金葡萄球菌为致病菌体测定了3种盐的杀菌活性．实验结果表明,所制备的3种吡啶类季铵盐具有良好的杀菌性能．     

新型溴化烷基取代吡啶类季铵盐的合成

以烟酰胺(1)为原料,分别与1-溴代辛烷(2a)和1-溴代癸烷经烷基化反应合成了两个新型的溴化烷基取代吡啶类季铵盐(3a和3b),其结构经1H NMR,13C NMR,IR和HR-MS(MALDI)表征。在最佳反应条件[乙醇为溶剂,1 10 mmol,n(2a)∶n(1)=1.2,于78℃反应4 h]下,3a收率69%。     

高分子吡啶季铵盐的抗菌性能及机理的探讨

高分子吡啶季铵盐的抗菌性能及机理的探讨;高分子抗菌剂;吡啶季铵盐;抗菌机理;杀菌     

尾式卟啉-吡啶(三乙铵)季铵盐的合成

合成了10个尾式卟啉-吡啶(三乙铵)季铵盐化合物.它们的结构经元素分析、IR,1H NMR,MS和UV-Vis确证.     

新型卟啉吡啶季铵盐的合成与应用

采用微波技术合成了3种新型吡啶卟啉季铵盐:溴化5-[4-N-(对硝基)苄铵基吡啶基]-10,15,20-三(4-N-吡啶基)卟啉、氯化5-[4-N-(对甲氧基)苄铵基吡啶基]-10,15,20-三(4-N-吡啶基)卟啉和氯化5-[4-N-(对氯)苄铵基吡啶基]-10,15,20-三(4-N-吡啶基)卟啉.化合物的结构采用紫外可见光谱、红外光谱、核磁共振谱、质谱、元素分析测试技术得到确认.在分光光度法测定水中的痕量铜离子的显色反应中,配合物的表观摩尔吸光系数都在1×105L/(mol·cm)以上,是一种高灵敏度显色剂.该卟啉试剂具有显色和表面活性剂双重功能,应用于环境水样中铜的测定得到了满意的结果.     

基于链状氨基酸N-手性季铵盐合成中的取代反应研究

手性季铵盐作为相转移催化剂(Phase-transfer catalysts ,PTC) 能使非均相反应在温和条件下进行,操作简单,反应速率加快,产率明显提高,因此这一技术在有机合成中具有广泛的应用.这些季铵盐主要是以金鸡钠生物碱衍生的[1,2],近年来出现了一些其它类型的季铵盐[3],但是它们的制备一般比较困难,大多数催化效果不是很理想;并且这些季铵盐的结构有一定局限,改造比较困难.同时这些季铵盐大都是 C-手性的,很少有N-手性的[4,5];在以前的不对称反应中,有意识地构建N-手性季铵盐及N-手性在不对称反应中的作用鲜有报道[6].     

四氯合钴-苄基-2-硝基吡啶季铵盐的合成及其晶体结构

合成了1种含四氯合钴配阴离子的苄基取代吡啶季铵盐[BzNO2Py]2[CoCl4][(BzNO2Py)+为苄基-2-硝基吡啶鎓离子];利用元素分析仪、红外光谱仪和X射线衍射仪表征了其组成和结构.结果表明,标题化合物为单斜晶系,空间群P21/c,晶胞参数为a=0.779 3(1)nm,b=1.849 3(2)nm,c=1.881 4(2)nm,β=97.56(1)°,V=2.688 0(5)nm3,Z=4,Dc=1.560g/cm3,GOOF=1.036,R1=0.055 9,wR2=0.151 5.标题化合物分子由1个四面体形的[CoCl4]2-阴离子和2个[BzNO2Py]+阳离子组成,[BzNO2Py]+阳离子之间存在C-H…O氢键和p…π作用,而阳离子和阴离子通过C-H…Cl氢键相连;标题化合物分子经由这些弱的氢键而形成二维网状结构.     

聚(4-乙烯基吡啶季铵盐-丙烯酰胺)的抗菌性能与机理研究

季铵盐型阳离子聚合物具有絮凝、缓蚀与杀菌等多种功能,据此,我们通过分子设计,先将丙烯酰胺与4-乙烯基吡啶（4-VP）进行共聚合,然后使用季铵化试剂硫酸二甲酯使共聚物阳离子化,制备了吡啶季铵盐型阳离子聚丙烯酰胺（QPAV）,本文报道QPAV的抗菌性能,并探讨其抗菌机理,结果表明,吡啶季铵盐型阳离子聚丙烯酰胺具有很强的抗菌性能,且其抗菌机理是基于杀菌而不仅仅是抑菌。     

新型含双长链和苄基的有机硅季铵盐的合成

以双十二胺(1)为原料,与氯化苄经取代反应制得中间体苄基双十二胺(2);2与γ-氯丙基三甲氧基硅烷(3)经季铵化反应合成了一种新型的含双长链和苄基的有机硅季铵盐(4),其结构经UV-Vis和FT-IR表征。通过正交实验L9(34)优化了2和4的反应条件。合成2的最佳工艺条件为:以乙腈为溶剂,1 5 mmol,n(1)∶n(Bn Cl)=1.0∶1.2,回流反应20 h,收率80.4%。合成4的最佳工艺条件为:以乙二醇为溶剂,2 5mmol,n(2)∶n(3)=1.0∶1.6,于110℃密闭反应80 h,收率57.8%。     

Preparation and properties of antibacterial ABS plastics based on polymeric quaternary phosphonium salts antibacterial agents

Antibacterial acrylonitrile‐butadiene‐styrene (ABS) plastics were prepared by adding polymeric quaternary phosphonium salts as antibacterial agents through a double screw extruder. The novel polymeric quaternary phosphonium salts (PBrMAP‐n) with alkyl chain length ranging from 3 to 11 were synthesized, and their chemical structures were confirmed by Nuclear magnetic resonance hydrogen spectroscopy (¹H‐NMR) and Fourier transform infrared spectroscopy (FT‐IR) spectra. The thermogravimetric analysis (TGA) results showed that all of the antibacterial agents had good thermal stability. The influence of addition amount as well as the alkyl chain length on mechanical properties and antibacterial properties was investigated. Compared with the pure ABS, all of PBrMAP‐n containing specimens had comparable tensile strength and flexural properties but reduced impact strength. Only samples with 10 wt% of PBrMAP‐11 exhibited more than 90% antibacterial efficiency against Escherichia coli and Staphylococcus aureus.     

Antibacterial membranes based on chitosan and quaternary ammonium salts modified nanocrystalline cellulose

Etherification of nanocrystalline cellulose (NCC) with three kinds of quaternary ammonium salts epoxypropyltrimethylammonium chloride, N,N‐dimethyl‐N‐dodecyl‐N‐(1,2‐epoxypropyl) ammonium chloride (DMDEPAC), and N,N‐dimethyl‐N‐octadecyl‐N‐(1,2‐epoxypropyl) ammonium chloride (DMOEPAC) was successfully performed via a nucleophilic addition reaction. The synthesized DMDEPAC and DMOEPAC were characterized by nuclear magnetic resonance. The modified NCC particles, NCC epoxypropyltrimethylammonium chloride, NCC‐DMDEPAC, and NCC‐DMOEPAC, were characterized by energy dispersive spectrometer. Nanocomposite films based on chitosan (CS) containing quaternary ammonium salts modified NCC were prepared with nanoparticle loadings of 5.0, 7.5, and 10.0%, respectively. The effect of nanoparticle content on the tensile strength of composite films was studied. The results indicated that the films with 5.0% nanoparticle loading exhibited the biggest increase in tensile strength. Surface morphology, smoothness, and antibacterial properties of composite films containing 5% modified NCC were also studied. CS/NCC‐DMDEPAC‐5.0 and CS/NCC‐DMOEPAC‐5.0 displayed excellent biocidal abilities against both Gram‐positive Staphylococcus aureus (ATCC 6538) and Gram‐negative Escherichia coli O157:H7 (ATCC 43895). The bio‐based nanocomposite films with increased mechanical strength and excellent antibacterial properties show great potential as food packaging materials. Copyright © 2017 John Wiley & Sons, Ltd.     

二甲基烯丙基胺/溴代烷烃系列季铵盐的合成与表征

以溴代烷与二甲基烯丙基胺(DMAA)为原料合成了二甲基烯丙基类季铵盐;探讨了反应温度、原料配比、反应时间及溶剂对反应产率的影响,确定了最佳合成条件;并采用红外光谱仪、核磁共振谱仪(1 H NMR)及质谱仪表征了产物的结构.     

Alkylbenzonaphthyridinones and benzonaphthyridinium quaternary salts

Four methyl and ethylbenzonaphthyridinones, along with two ethylbenzonaphthyridinium iodides, 2.5-dimethyl-1,5-benzo[c]naphthyridinium iodide, as well as three isomeric N-3-bromopropylbenzonaphthyridinium bromides have been synthesized and their structures confirmed by¹H NMR spectroscopy. Biological data (minimal inhibitory concentrations) for two of the obtained compounds are presented.Institute of Chemistry, Pedagogical University, 42-201 Czestochowa, Poland Translated from Khimiya Geterotsiklicheskikh Soedinenii, No. 7, pp. 944–950, July, 2000.     

Synthesis of n-alkylated quaternary ammonium chitosan and its long-term antibacterial finish for rabbit hair fabric

In this work, n-alkyl chitosan (N-CTS) was obtained by alkylation modification of chitosan with n-butylaldehyde using Schiff alkali method. The etherifying agent 3-chloro-2-hydroxypropyl triethylammonium chloride (CHPTAC-ethyl) was synthesized from triethylamine and epichlorohydrin. The N-CTS and CHPTAC-ethyl were etherized to finally synthesize n-alkyl quaternary ammonium chitosan (N-CCTS). Scanning electron microscope, X-ray diffractometer, Fourier transform infrared, X-ray photoelectron spectroscopy, and ¹³CNMR were used to characterize the surface morphology and chemical structure. Viscosity method and spectrophotometry were used to determine its physical and chemical properties. The etherification reaction mechanism was studied systematically and the influence of reaction conditions on the degree of substitution and solubility of N-CCTS was investigated. The minimum inhibitory concentration (MIC) of N-CCTS against Escherichia coli (E. coli) and Staphylococcus aureus (S. aureus) was both 0.15 g/L, which was superior to the MIC value of natural chitosan. N-CCTS was used to finish rabbit hair fabric with citric acid as cross-linking agent and sodium hypophosphite as catalyst. The antibacterial and washing resistance of the product were investigated. After 25 times of washing, the antibacterial rate of N-CCTS against E. coli and S. aureus remained stable at about 90%, and the antibacterial rate was higher than that of N-CTS and natural chitosan, and it was a kind of natural polymer long-acting antibacterial finishing agent for rabbit hair fabric.     

Heterocyclization of amino alcohols into saturated cyclic quaternary ammonium salts

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Study of ring cleavage in quaternary ammonium salts of 1,3-diazaadamantane

A series of quaternary ammonium salts of 5,7-dimethyl-1,3-diazaadamantan-6-one bearing aryl and alkyl substituents was synthesized. On treatment with aqueous KOH, these compounds undergo ring cleavage to give 3,7-diazabicyclo[3.3.1]nonane derivatives. The product structure was confirmed by ¹H and ¹³C NMR and IR spectroscopy. Dedicated to Academician V. A. Tartakovsky on occasion of his 75th birthday. Published in Russian in Izvestiya Akademii Nauk. Seriya Khimicheskaya, No. 8, pp. 1496–1501, August, 2007.