酯基Gemini型季铵盐表面活性剂与SDS的相互作用

研究了酯基Gemini型季铵盐表面活性剂[Cm-1H2m-1COOCH2CH2(CH3)2N+(CH2)n+N(CH3)2CH2CH2OOCCm-1H2m-1]•2Br-(简称II-m-n, m=10, 12; n=3, 4, 6)与十二烷基硫酸钠(SDS)的复配体系的相互作用以及无机盐(NaBr)对复配体系表面活性的影响. 结果发现, 其复配体系具有显著的胶团化协同增效作用和降低表面张力的增效作用, 并且II-10-n与SDS的复配体系的增效作用具有等链长效应. II-m-n/SDS复配体系的胶团化协同增效作用随n增大而增强. 混合胶团中II-m-n与SDS的摩尔比均近似为1:1, 显示各复配体系的混合胶团均带电性, 因此NaBr的加入能增强复配体系的表面活性和促进混合胶团的形成.     

苯乙酮基吡啶季铵盐与醇的反应

苯乙酮基吡啶季铵盐具有多种反应活性,但它带有的羰基的反应性很少引起人们的关注.研究发现苯乙酮基吡啶季铵盐在碱性条件下与醇(或酚)反应时,吡啶基带着α-碳原子离去,生成相应的苯甲酸酯类物质.与醇反应时产率较高(80%~98%),与苯酚反应时,产率为48%.     

松香基季铵盐为模板剂有序超微孔二氧化硅的合成

以松香基季铵盐(脱氢枞基三甲基溴化铵,标记为DTAB)为模板剂、正硅酸乙酯为硅源、氨水为碱性介质成功合成出具有纳米片状形貌的六方有序超微孔二氧化硅材料。采用X射线衍射、N2吸附-脱附、透射电镜、扫描电镜等手段对样品进行表征,结果表明,体系中模板剂添加量、硅源添加量、碱性介质添加量、晶化温度、搅拌时间对前驱体的有序度有着较大的影响。当物质的量之比为nSi O2∶nDTAB∶nNH3·H2O∶nH2O=1.0∶0.1∶11.3∶924.0,晶化温度为373 K,搅拌时间为24 h,所得样品有序度最高。经煅烧后样品具有较大的比表面积(1 024 m2·g-1)和孔容(0.56 cm3·g-1),以及狭窄的孔径分布(集中于1.80 nm)。     

松香基季铵盐为模板剂有序超微孔二氧化硅的合成

以松香基季铵盐(脱氢枞基三甲基溴化铵,标记为DTAB)为模板剂、正硅酸乙酯为硅源、氨水为碱性介质成功合成出具有纳米片状形貌的六方有序超微孔二氧化硅材料。采用X射线衍射、N₂吸附-脱附、透射电镜、扫描电镜等手段对样品进行表征,结果表明,体系中模板剂添加量、硅源添加量、碱性介质添加量、晶化温度、搅拌时间对前驱体的有序度有着较大的影响。当物质的量之比为n_Sio2:n_DTAB:n_NH3·H2O:n_H2O=1.0:0.1:11.3:924.0,晶化温度为373K,搅拌时间为24h,所得样品有序度最高。经煅烧后样品具有较大的比表面积(1024 m₂·g^-1)和孔容(0.56 cm³·g^-1),以及狭窄的孔径分布(集中于1.80 nm)。     

醇醚糖苷的制备及其复配性能研究

用环氧乙烷(EO)平均加合数分别为0.8和3.0的脂肪醇醚AEO0.8、AEO3.0为原料,直接与葡萄糖反应,反应混合物用超临界CO2萃取技术提纯,分别得到醇醚糖苷AEG08、AEG30,并用气相色谱法定量分析了AEG08和AEG30的组成.然后分别对AEG08、AEG30与醇醚硫酸盐(AES)及十二烷基甜菜碱(BS-12)复配体系的表面张力、临界胶束浓度(cmc)、润湿力、乳化力、起泡及泡沫稳定性进行了测定.结果表明AEG与AES按不同质量比复配后,表面张力、cmc、起泡及泡沫稳定性显示了一定的协同效应,润湿力和乳化力显示了负的协同效应;而AEG与BS-12复配后,其表面张力、cmc、润湿力、乳化力、起泡及泡沫稳定性都显示了明显的协同效应.     

新型聚苯胺共聚物季铵盐的合成与性能研究

以邻硝基苯甲酸和苯胺为原料,经6步反应合成了一种新型的聚[苯胺-N-(2-氯乙基)-2-氨基苯甲酰胺]共聚物季铵盐(6),其结构和性能经UV-Vis,IR,X-射线衍射和离子交换容量表征。结果表明,季铵化成盐后,6的IR和UV吸收带发生了明显蓝移;6具有较好的共轭性,可能呈导电性;6呈非晶态结构,能溶于甲醇和DMF等极性溶剂,具有一定的离子交换能力。     

硫脲基咪唑啉季铵盐的合成及其缓蚀作用

用戊酸、羊蜡酸、油酸、二乙烯三胺、氯化苄和硫脲为原料,合成了6种咪唑啉季铵盐化合物。 采用静态失重法和极化曲线法,比较了硫脲基烷基咪唑啉型季铵盐和烷基咪唑啉型季铵盐在80 ℃、1 mol/L的HCl溶液中对碳钢的缓蚀性能,研究了这两类缓蚀剂与无机阴离子和阴离子表面活性剂的协同作用。 结果表明,硫脲基烷基咪唑啉季铵盐类的缓蚀效果明显优于烷基咪唑啉季铵盐类,硫脲基羊脂酸咪唑啉缓蚀剂的缓蚀率可达98.3%。 当以羊脂酸、二乙烯三胺、氯化苄和硫脲为原料合成的硫脲基烷基咪唑啉型季铵盐化合物与I-质量比为1∶1复配时,缓蚀效果最佳,比单独使用硫脲基烷基咪唑啉季铵盐化合物的缓蚀率提高了1.5%。     

光敏性季铵盐的合成与性能研究

制备了α-二乙氨基苯乙酮并在醋酸环境下将该化合物与苯基缩水甘油醚（PGE）反应合成了以醋酸根为配对阴离子的、具有芳酮结构的光敏性季铵盐（α-PGE－A）,通过红外吸收光谱,核磁共振谱及热重分析对α-PGE－A紫外光辐照前后的结构进行了研究。红外光谱显示α-PGE－A经紫外辐照后,其羰基吸收峰显著增强,醋酸根离子吸收峰消失;核磁共振研究表明样品光照后可能生成频胺及醋酸酯。α-PGE-A与环境树脂复配合的热固化研究显示,经紫外光辐照后的样品热固化较易进行完全。表明α-PGE-A具有一定光产碱活性。     

新型甲基吲哚季铵盐的制备及其光电性能研究

以2,3,3-三甲基吲哚为原料,合成了5种甲基吲哚阳离子季铵盐,通过核磁共振氢谱、质谱等手段,对合成的化合物进行了结构表征,并将其作为有机电解质应用于染料敏化太阳能电池,测定了其相应的光电转换效率,探讨了阳离子季铵盐化合物结构与光电性能的关系.     

季铵盐高分子抗菌剂的工艺优化与抗菌性能研究

采用正交实验设计,进行公斤级批量制备DMAEMA-DB季铵盐单体和抗菌聚合物的研究,对影响单体合成的关键因素以及聚合的条件进行优化,并采用FT-IR和NMR等方法对所合成的单体和聚合物分别进行了结构表征,通过平板活菌计数法测定了单体以及聚合物的抗菌性能.结果表明,DMAEMA-DB单体的优化合成条件为:反应温度55℃,反应时间30h,反应物浓度为V<,s>:V<,l>=1:1,反应物配比为DMAEMA:DB=1:1.1.Poly(AAm/DMAEMA-DB)的最佳合成工艺条件为:聚合温度70℃,聚合时间8h,单体浓度为0.4mol/L,引发剂用量为单体用量的0.4mol%,在该条件下合成的聚合物平均得率达89%.将它们用于杀灭大肠杆菌时,接触时间5min对大肠杆菌的抑菌率可达99%,接触时间30min抑菌率达到100%.     

Adsorption, association and precipitation in hexadecyltrimethylammonium bromide/sodium dodecyl sulfate mixtures

The phase equilibria of surfactant aqueous mixtures, hexadecyltrimethylammonium bromide and sodium dodecyl sulfate, have been studied by polarizing microscopy, quasielastic light scattering, conductivity, potentiometric, electrophoretic, and surface tension measurements. Adsorption at the air/solution interface, association and precipitation in bulk solution strongly depended on the molar ratio and the concentration of surfactants. Catanionic vesicles coexisted with crystalline catanionic salts in a broad concentration range. The relative proportions of crystallites and vesicles varied according to the concentration and the molar ratio of the surfactants. The solid crystalline phase was progressively converted to catanionic vesicles with increasing surfactant molar ratio. At the highest excess of one of the surfactants transition from catanionic vesicles to mixed micelles occurred. The formation and stability of different phases are discussed in terms of surfactant molecular packing constraints and electrostatic interactions in the headgroup region. Surfactant tail-length asymmetry and the change of electrostatic interactions in the headgroup region from attractive to repulsive are governing factors for the transition from planar to curved bilayers. Received: 9 June 1998 Accepted: 18 August 1998     

Interaction of sodium dodecyl sulfate with polyelectrolyte complexes derived from diazoresin and sulfonate-containing polymers

The sulfonate-containing polyelectrolytes (SPE) from sulfonation of polystyrene (PS) and copolymerization of 3-sulfo-propyl methacrylate, potassium salt (SPMS) with styrene (S) were prepared. Photosensitive polyelectrolyte complexes (PEC_DR) derived from SPE and diazoresin (DR), which does not dissolve in water or organic solvent due to its ionic crosslinking structure, dissolves in aqueous solution of sodium dodecyl sulfate (SDS) due to the dissociation of PEC_DR and the hydrophobic interaction between SDS and the polymer chain. The photosensitive behavior and thermostability of the PEC_DR were investigated, and it was found that the thermostability of PEC_DR increases dramatically in SDS aqueous solution. It was proposed that the higher thermostability of PEC_DR in SDS aqueous solution is due to an aggregation of SDS molecules around the diazonium group of the PEC_DR, which protects the  N group of the DR from attack by the nucleophiles. The image-forming behavior of PEC_DR by ultraviolet (UV) light was examined and considered to be different from other PECs. It was concluded that the photoimaging behavior of PEC_DR is based on a reaction in which an ionic bond converts to a covalent bond. © 1999 John Wiley & Sons, Inc. J Polym Sci A: Polym Chem 37: 2601–2606, 1999     

Effect of sodium dodecyl sulfate on lipase ofCandida lipolytica

The effects of sodium dodecyl sulfate on extracellular lipase produced byCandida lipolytica have been studied. The microorganism was grown in culture medium containing different sodium dodecyl sulfate concentrations added to the culture at different intervals of growth. The extracellular lipase activity was not detected when the treated culture supernatants were directly tested in Yeast Mold Agar-Triolein-Rhodamine plates, regardless of surfactant addition time and concentrations. However, after ammonium sulfate precipitation and dialysis, the extracellular lipase activity could be recovered. Therefore, the surfactant, under the experimental conditions used here, does not seem to be able to inhibit lipase production, but it does inhibit the enzyme activity because of its presence in the mixture of the reaction.     

Electrokinetic properties of mixed solutions of dodecyldimethylamine oxide and sodium dodecyl sulfate: specific adsorption effects of small ions

Electrophoretic light-scattering measurements and potentiometric titrations were carried out on aqueous mixtures of dodecyldimethylamine oxide and sodium dodecyl sulfate. The electrophoretic mobility and the surface charge density of the micelles were always negative, ranging from –2.5 to –3.1×10^–4 cm²V^–1s^–1, and –0.033 to –0.045 cm^–2, respectively, for all surfactant mixing ratios, indicating the specific adsorption of Cl^–, in addition to Na⁺, on micelles. The solution pH, as well as the aggregation number previously reported, displayed maxima at intermediate surfactant mole fractions, that is, the non-ideal behavior. The fractional adsorption of Na⁺ per surfactant molecule in the micelles increased gradually with mixing fraction up to 0.82 atX=[SDS]/([SDS]+[C₁₂DAO])=1, while that of Cl^– decreased from 0.25 atX=0 to zero atX>0.4.     

十二烷基硫酸钠与羟乙基纤维素的相互作用

本文用表面张力(γ)和电导率(κ)方法研究了阴离子表面活性剂十二烷基硫酸钠(SDS)与天然纤维素的水溶性改性物羟乙基纤维素(HEC)的相互作用.实验结果表明,SDS-HEC溶液的γ-lgcSDS曲线和κ～CSDS曲线均呈现双拐点特征,并且γ-lgcSDS曲线上两个SDS临界浓度值(c1 )γ及(c2)γ,与κ～CSDS...     

Tripolyphosphate-responsive release property of monoolein cubic phase containing sodium dodecyl sulfate and oligo chitosan

Tripolyphosphate (TPP)-responsive MO cubic phase was prepared by immobilizing oligo chitosan in the water channel through its electrostatic attraction with sodium dodecyl sulfate (SDS). The phase transition temperature (PTT) increased with increasing the content of SDS. The PTT of cubic phase whose SDS content was 0%, 0.21%, 0.42%, 0.84%, and 1.68%, determined by polarized microscopy, was about 69.5°C, 72°C, 75°C, 80.5°C, and 95°C, respectively. The PTT did not markedly deviate from that determined by differential scanning calorimetry. The release degree for 72 h of dye (i.e., amaranth and methylene blue) was dependent on the pH value of release medium (pH 3.0 and pH 7.0). Moreover, the release degree significantly increased when the TPP concentration in the release medium increased to 0.4% (w/v). Oligo chitosan was electrostatically complexed with TPP and the complexation took place extensively at the oligo chitosan/TTP mass ratio of 1:0.125 and 1:0.25 and at the oligo chitosan concentration of 1.6% (w/v), evidenced by optical spectroscopy and scanning electron microscopy. It was thought that the complexation was responsible for the TPP concentration-dependent release.     

Precipitation and association in a mixture of dodecylammonium chloride and sodium dodecyl sulfate in aqueous medium

The precipitation boundary in aqueous mixtures of dodecylammonium chloride (DDACl) and sodium dodecyl sulfate (NaDS) was determined in the absence and in the presence of 1 mol dm^–3 NaCl. The structure and the composition of the solid phase was characterized by x-ray and chemical analysis, respectively. Activities of Cl^– and Na⁺ ions in the aqueous phase were measured by ion-selective electrodes. As determined by calorimetry, precipitation is an exothermic process.The DDA·DS precipitate was formed in the equimolar region of the precipitation components. Its crystallographic structure is described. In an excess of sodium dodecyl sulfate, the precipitate incorporated substantial amounts of NaDS, as detected by analyses of both solid and liquid phases. X-ray analysis of the dry sample showed peaks of crystalline NaDS. According to the polarization microscopy of wet samples, one may conclude that liquid crystals, containing an excess of NaDS, are incorporated in the solid DDA·DS phase. The same was found in the case of an excess of DDACl; mixed liquid crystals with an excess of DDACl were incorporated in the solid DDA·DS.Interpretation of the solubility boundary points to the presence of DDA⁺·DS^– ion pairs. Formation of these species at low ionic strengths is characterized by the equilibrium constantK _a ⁰ 10⁶. However, in the 1 mol dm^–3 NaCl, the association of DDA⁺ and DS^– ions into pairs is inhibited (K _a ⁰ 0). This finding can be explained in terms of ionic clouds around the charged surfactant heads: if these heads are not in close contact, but separated due to structural effects of the chains, the dense distribution of counterions around them at high ionic strengths may compensate for electrostatic attraction and, thus, inhibit ion-pairing.     

Structure of pravastatin and its complex with sodium dodecyl sulfate micelles studied by NMR spectroscopy

The aim of this work was to study the mechanisms of interaction between pravastatin and cell membranes using model membranes (sodium dodecyl sulfate micelles) by nuclear magnetic resonance spectroscopy methods. On the basis of the nuclear magnetic resonance experiments, it was established that pravastatin can form intermolecular complexes with sodium dodecyl sulfate micelles by the interaction of its hydrophilic groups with the polar surface of the micelle. Conformational features of pravastatin molecule were also studied. Copyright © 2014 John Wiley & Sons, Ltd.     

Receptor properties of calix[4]resorcinarenes toward tetramethylammonium and choline cations in micellar solutions of sodium dodecyl sulfate

Concentration range of solubilization of calix[4]resorcinarene (H₈L) in sodium dodecyl sulfate (SDS) micelles was found. The interaction of the deprotonated form of H8L (tetraanions [H₄L]⁴⁻) with tetramethylammonium (TMA) and choline cations in micellar solutions of SDS was studied by pH-metry and NMR spectroscopy. The concentration dependences of the change in the cloud point in a multicomponent system TMA (choline)-[H₄L]⁴-SDS-tetrabutylammonium bromide were determined. A correlation of these dependences with host-guest binding processes was found. The sharp change in the cloud points of the corresponding micellar solutions in concentration regions of TMA (0-5·10⁻⁴ mol L⁻¹) and choline (0–1.1· 10⁻³ mol L⁻¹) is caused by the formation of inclusion complexes TMA (choline)-[H₄L]⁴⁻ at the interface of the aqueous and micellar pseudophases. Published in Russian in Izvestiya Akademii Nauk. Seriya Khimicheskaya, No. 8, pp. 1366–1371, August, 2006.