Rheological Behavior of Aqueous Solutions of Cationic Guar in Presence of Oppositely Charged Surfactant

The cationic guar (CG) is synthesized and the rheological behavior of aqueous solutions of CG in the presence of sodium dodecyl sulfate (SDS) is studied in detail. The steady viscosity measurements show that the zero shear viscosity enhancement can be almost 3 orders of magnitude as the concentration of SDS increases from 0 to 0.043%. The gel-like formation is observed as the concentration of SDS is greater than 0.016%. The oscillatory rheological measurements of CG solutions in the presence of SDS show that the crossover modulus is almost independent of the concentration of SDS whereas the apparent relaxation time increases swiftly upon increasing the concentration of SDS. The experimental results indicate that the strength rather than the number of the cross-links is greatly affected bySDS molecules. The mechanism concerning the effect of SDS upon the rheology of CG solutions can be coined by the two-stage model. Before the formation of cross-links at the critical concentration, the electrostatic interaction between SDS and cationic site of CG chains plays a key role and the SDS molecules bind to CG chains through the electrostatic interaction. After the formation of cross-links at the concentration greater than the critical concentration, the cooperative hydrophobic interaction become dominant and SDS molecules bind to the cross-links through the hydrophobic interaction. The rheological behavior of aqueous solutions of CG in the presence of SDS is chiefly determined by the micelle-like cross-links between CG chains. In fact, the flow activation energy of CG solution, obtained from the temperature dependence of the apparent relaxation time, falls in the range of transferring a hydrophobic tail of SDS from the micelle to an aqueous environment.     

二茂铁接枝聚丙烯酰胺水溶液的流变行为研究

采用“Post-Modification”技术在二甲基亚砜中直接对聚丙烯酰胺进行烷基化反应,接枝二茂铁官能团(Fc),制备出一种具有氧化还原性质的二茂铁改性聚丙烯酰胺(PAM-Fc).通过红外光谱(FTIR)、核磁氢谱(1H-NMR)、热失重(TGA)、电化学、动态流变测试等方法对PAM-Fc的化学结构、电化学活性和流变特性进行了表征.研究结果表明,PAM-Fc具有氧化还原性,相比PAM呈现更好的热稳定性,这主要源于Fc基团稳定了PAM分子链的自由基.Fc基团在水溶液中的疏水缔合作用会导致体系黏度显著增大.通过添加NaCl、β-环糊精或H2O2等可以对PAM-Fc水溶液的黏度进行有效调控.其中,NaCl可以屏蔽PAM-Fc分子链上的电荷,β-环糊精能够包合Fc基团,H2O2则可将疏水的还原态Fc基团氧化成亲水的氧化态Fc,从而实现PAM-Fc水溶液流变行为的调节.     

十二烷基硫酸钠对聚乙烯醇亚浓水溶液流变行为的影响

表面活性剂会影响聚乙烯醇(PVA)分子间及分子内氢键形成,进而改变其水溶液的流变响应.本文在确定十二烷基硫酸钠(SDS)在PVA亚浓水溶液中的临界聚集浓度(CAC)和临界胶束浓度(CMCP)基础上,考察了SDS对PVA亚浓溶液(10 wt%)流变行为的影响.研究发现,不同浓度SDScsur对PVA水溶液稳态流变行为的影响差异较大:(1)当csur CMCP,随着csur增加,胶束起物理交联点作用,ηa增大,复合溶液的动态储能模量亦显著增大.加入SDS后,PVA体系内结合水的数目降低,但当csur> CMC后,结合水的数目几乎不变,黏流活化能也表现出相近的变化规律.与稀溶液相比,SDS对PVA亚浓溶液的降黏幅度较大.     

一维粒子对聚乙烯醇水溶液流变行为的调控

将一维粒子(碳纳米管, CNTs; 碳纳米纤维, CF)加入聚乙烯醇(PVA)水溶液中, 考察碳粒子表面含氧官能团含量(羟值)、 长径比、 温度及PVA本体溶液浓度等对复合体系流变行为的影响. 结果显示, 复合溶液的黏度(η)随CNTs用量({\phi }_{\mathrm{C}\mathrm{N}\mathrm{T}\mathrm{s}})先增大后降低, 然后继续增大, 呈“N”形变化趋势, 出现两个拐点({\phi }_{\mathrm{1}}和{\phi }_{\mathrm{2}}). 在{\phi }_{\mathrm{1}}附近, CNTs主要起物理交联点作用, 体系η增加; 在{\phi }_{\mathrm{2}}附近, CNTs对PVA分子间氢键作用破坏最为严重, 体系η低于纯PVA溶液, 表明不同羟值CNTs仅改变其用量即可使PVA水溶液增黏或降黏. 随着羟值增大, CNTs与PVA大分子间相互作用加强, {\phi }_{\mathrm{1}}和{\phi }_{\mathrm{2}}减小, {\phi }_{\mathrm{2}}对应的η下降, 降黏效果显著. CNTs的加入使PVA水合数下降, 羟值大的CNTs可与PVA上更多的羟基形成氢键作用, 水合数更低. 随着{\phi }_{\mathrm{C}\mathrm{N}\mathrm{T}\mathrm{s}}增大, 复合体系黏流活化能增大. CNTs对不同质量分数PVA水溶液的η具有类似的调控作用, 但调控幅度有差异. 相同羟值、 不同长径比的CNTs对PVA水溶液的黏度调控均呈“N”形变化, 长径比小的CNTs复合体系, {\phi }_{\mathrm{1}}和{\phi }_{\mathrm{2}}较大. 长径比相近但直径较大的CF复合体系表现出更低的{\phi }_{\mathrm{1}}和{\phi }_{\mathrm{2}}.     

两种联接链的季铵盐Gemini表面活性剂水溶液流变行为

季铵盐Gemini表面活性剂C12-s-C12•2Br(s=2)水溶液在25 ℃,3～9 mmol•kg－1和10～40 mmol•kg－1两个浓度范围区受剪切速率γ影响不同,前者在γ=0～1875 s－1内均为牛顿型,后者在各自临界剪切速率γ*之后由牛顿型转变为膨胀型,且零剪切粘度η0随浓度c急剧增大,这是由于溶液中的线状胶团相互缠绕所致.当在联接链中增加乙氧基（C12-s-En-C12•2Br, s=2, n=1、2、3）,由于单元分子几何形状发生明显变化,只生成球状胶团,使其在c=3～120 mmol•kg－1和γ=0～1 875 s－1范围内始终表现为牛顿型,η0仅随c和γ略为增大.降低温度有利于剪切力诱导流型转变,但若在一段温度范围内溶液始终保持牛顿型,温度对η0影响很小.     

力化学降解对聚氯乙烯加工流变行为的影响

采用Brabender塑化仪和毛细管流变仪研究了经力化学降解制得的聚氯乙烯(PVC)的加工流变行为。结果表明,降解的PVC塑化时间比未降解的PVC明显缩短,塑化速度和熔化效率也明显加快,熔体粘度及玻璃比温度降低。     

利用水相合成的量子点标记木瓜蛋白酶的研究

利用半导体纳米粒子 (也称半导体量子点 ,Quantum Dots,以下简称 QDs)和表面修饰技术制备的半导体荧光探针具有极其优良的光谱特征和光化学稳定性 [1] .自 1 997年以来 ,随着量子点制备技术的不断提高 ,量子点在生物医学方面已有应用 . 1 998年 ,Alivisatos[1] 和 Nie[2 ] 两个研究小组分别将结合了生物分子的 QDs作为荧光探针应用于生物体系 ,开创了纳米粒子应用的新领域 .最近 Nie等 [3 ]在利用量子点编码生物分子的研究中取得了突破性进展 .目前 ,纳米粒子与生物分子的连接以共价键方式相结合最为常见 [1,2 ,4 ,5] ,而且在这些应用中…     

水杨酸钠对阳离子Gemini表面活性剂水溶液中蠕虫状胶束形成和性质的影响

用稳态和震荡剪切实验研究了水杨酸钠(NaSal)对50 mmol·L^-1阳离子Gemini表面活性剂2-羟基-(三亚甲基-α,ω-双十二烷基三甲基溴化铵和三亚甲基-α,ω-双十二烷基三甲基溴化铵, 简写为12-3(OH)-12和12-3-12)水溶液中形成蠕虫状胶束及其性质的影响. 在无盐状态下, 50 mmol·L^-1的12-3(OH)-12或12-3-12在水溶液中仅形成球状或棒状胶束. NaSal可促进上述两体系胶束的生长, 生成蠕虫状胶束. 比较而言, 12- 3(OH)-12对NaSal更敏感, 可以在低盐浓度下生成蠕虫状胶束. 而且与12-3-12体系相比, 12-3(OH)-12生成了更长的蠕虫状胶束. 这些差别在于12-3(OH)-12体系中存在羟基连接链之间的氢键作用, 这增加了12- 3(OH)-12头基的亲水性, 促进了反离子的解离, 增大的胶束表面电荷密度更强烈地结合水杨酸根反离子, 减小了头基间的静电斥力, 反过来又增强了分子间氢键, 致使 12-3(OH)-12胶束迅速生长.     

Polymer-Surfactant Interactions and the Effect of Tail Size Variation on Micellization Process of Cationic ATAB Surfactants in Aqueous Medium

The interactions between oppositely charged surfactant-polymer systems have been studied using surface tension and conductivity measurements and the dependence of aggregation phenomenon over the polyelectrolyte concentration and chain length of cationic ATAB surfactants, cetyltrimethyl ammonium bromide (CTAB), tetradecyltrimethyl ammonium bromide (TTAB), and dodecyltrimethyl ammonium bromide (DTAB) have been investigated. It was observed that cationic surfactants induce cooperative binding with anionic polyelectrolyte at critical aggregation concentration (cac). The cac values of ATAB surfactants in the presence of anionic polyelectrolyte, sodium carboxy methyl cellulose (NaCMC), are considerably lower than their critical micelle concentration (cmc). After the complete complexation, free micelles are formed at the apparent critical micelle concentration (acmc), which is slightly higher in polyelectrolyte aqueous solution than in pure water. Among the cationic surfactants (i.e., CTAB, TTAB, and DTAB), DTAB was found to have least interaction with NaCMC. Surfactants with longer tail size strongly favor the interaction, indicating the dependence of aggregation phenomenon on the structure, morphology, and tail length of the surfactant.      

HPAN/SPI水凝胶纤维的PH刺激响应性能

探索了聚丙烯腈(PAN)和大豆分离蛋白(SPI)在NaOH水溶液中进行PAN碱解,然后挤到凝固浴中凝固、交联,制备水解聚丙烯腈(HPAN)／SPI水凝胶纤维的方法。通过测定凝胶纤维的平衡溶胀伸长率和溶胀伸长率,观察到HPAN／SPI水凝胶纤维的滞后和可逆的伸长／收缩行为,同时在不同组成的凝胶纤维中,随着PAN含量的逐渐增大,水凝胶纤维的响应速率呈现由小到大然后减小的变化规律,当mPAN／mspt=6／4时有最好的响应性能。     

聚合物分散剂对氟铃脲水悬浮剂流变性质的影响

采用控制应力流变仪研究了聚合物分散剂苯乙烯丙烯酸无规共聚物（MOTAS）用量、分子量及氟铃脲质量分数等对氟铃脲水悬浮剂流变性质的影响。 结果表明,以聚合物MOTAS为分散剂制备的氟铃脲水悬浮剂的流变行为符合Herschel-Bulkley模型。 在固定氟铃脲质量分数为20%时,当分散剂质量分数≤3.0%时,流动行为指数n≤1.0,悬浮体系表现为假塑性流体,当分散剂质量分数≥3.5%时,流动行为指数n≥1.0,悬浮体系具有胀塑性流体特征。 氟铃脲水悬浮剂的流变参数屈服值τH与分散剂MOTAS和氟铃脲的加入量有关。 分散剂MOTAS质量分数≤2.5%时,分散剂在氟铃脲颗粒界面吸附很少,裸露的氟铃脲颗粒界面间相互搭接,具有较大的屈服值τH;当分散剂加入质量分数为3.0%时,分散剂可在氟铃脲颗粒界面形成饱和吸附,若再增加分散剂用量,多余分散剂在悬浮的氟铃脲颗粒间形成搭接,使其屈服值τH增大。 在MOTAS分散剂的分子量在10 000~30 000范围内时,MOTAS分子量愈大,所制得的氟铃脲水悬浮剂的表观粘度和屈服值τH愈小,流变行为指数n虽略有增加,但均小于1,没有改变“剪切变稀”的假塑性特征。     

Effect of Surface Structure on Behavior of RuO2 Electrodes in Sulfuric Acid Aqueous Solution

The electrochemical properties of RuO₂ electrodes are studied by means of cyclic voltammetry, potential step, and impedance measurements in aqueous 0.5 mol/dm³ H₂SO₄ as a supporting electrolyte solution and applying the hanging electrolyte meniscus technique. Two types of the electrodes are used: bulk as-grown single-crystal having (101) exposed interface and 500 nm film produced by reactive RF magnetron sputtering at 450°C. The surface structure of the RuO₂ electrodes prepared by different techniques is defined from X-ray LAUE backscattering. Experimental data show that, for both RuO₂ electrodes, the charging components include a slow diffusion-controlled contribution, due to proton injection–ejection. The diffusion characteristics and the diffusion coefficients for the same electrodes are estimated and reported.     

SDS对PEO-PPO-PEO嵌段共聚物溶液行为的影响

对PEO-PPO-PEO（127）三嵌段共聚物的水溶液行为及添加十二烷基硫酸钠（SDS）后对共聚物溶液行为的影响进行了研究．利用荧光探针技术对不同SDS浓度下F127／SDS体系的胶来形成进行研究,并研究了SDS对F127浓溶液凝胶化行为的影响．结果表明：随着SDS浓度的增大,F127稀溶液胶束的形成受到抑制,SDS浓度愈大,形成的胶束结构就愈疏松．对F127浓溶液来说,SDS与F127摩尔比小于2时,体系易于凝胶化;但当SDS浓度增大,其与F127摩尔比大于2时,体系开始难于凝胶化,直至摩尔比大于5时,体系不再形成凝胶．     

P(DEAM-co-MAA)在稀水溶液中构象行为的荧光探针研究

利用UV透光率测定,荧光探针技术等研究了N,N-二乙基丙烯酰胺(DEAM)与甲基丙烯酸(MAA)的共聚物P(DEAM-co-MAA) 在稀水溶液中的构象行为.结果表明，当共聚物中DEAM含量小于8.00％(molar fraction),溶液的pH < 6时,P(DEAM-co-MAA)在稀水溶液中的构象行为与聚甲基丙烯酸(PMAA)相似,共聚物可形成疏水微区,表现为一种较为高度压缩的线团构象;当共聚物中DEAM含量大于8.00％(molar fraction)时,由于高分子的稀释效应,P(DEAM-co-MAA)在pH 2～10范围内表现为较为松散的伸展构象.P(DEAM-co-MAA)构象随其组成和pH变化的这种性质有可能在新型敏感性凝胶的合成设计上获得应用.     

电磁处理对水溶液中碳酸钙微粒沉降及附着性能的影响

通过Zeta电位、表面自由能及其分量、粘附功等热力学参数的测定与分析, 研究了电磁处理对等物质的量Na₂CO₃与CaCl₂溶液混合生成的碳酸钙微粒的沉积特性及阻垢机理. 结果显示电磁处理可以使碳酸钙微粒的Zeta电位绝对值减小约5 mV, 同时加快碳酸钙微粒的沉降速度. 经电磁处理生成的碳酸钙微粒的表面自由能为31.59 mJ•m^－2, 比未经处理时减小30%, 同时表面自由能Lifshitz-van der Waals分量从处理前的43.53 mJ•m^－2下降到25.50 mJ•m^－2, 说明成垢溶液的电磁处理可以提高碳酸钙微粒的热力学稳定性. 水溶液中碳酸钙微粒与316L不锈钢表面之间的理论粘附功计算显示, 电磁处理降低了该理论粘附功, 使碳酸钙微粒在不锈钢表面的附着能力下降.     

The Synergistic Effect of Cationic Moieties and GRGDSF‐Peptides in Hydrogels on Neural Stem Cell Behavior

This article reports the behavior of embryonic neural stem cells on a hydrogel that combines cationic, non‐specific cell adhesion motifs with glycine‐arginine‐glycine‐aspartic acid‐serine‐phenylalanine (GRGDSF)‐peptides as specific cell adhesion moieties. Therefore, three hydrogels are prepared by free radical polymerization that contains either a GRGDSF‐peptide residue ( P1 ), amino ethylmethacrylate as a cationic residue ( P2 ), or a combination of both motifs ( P3 ). For each gel, cross linker concentrations of 8 mol% is used to have a comparable gel stiffness of 8–9 kPa. The cell experiments indicate a synergistic effect of the non‐specific, cationic residues, and the specific GRGDSF‐peptides on embryonic neural stem cell behavior that is especially pronounced in the cell adhesion experiments by more than doubling the number of cells after 72 h when comparing P3 with P2 and is less pronounced in the proliferation and differentiation experiments.

     

Effect of Buffer Species on the Inclusion Complexation of Acidic Drug Celecoxib with Cyclodextrin in Solution

The interaction of celecoxib (Celox) with cyclodextrins (CDs) has been investigated by phase solubility techniques. In this study, the influences of CD type, pH, buffer type, buffer concentration and temperature on the tendency of Celox to form inclusion complexes with CDs were examined. The tendency of Celox to complex with CDs is in the order HP-β-CD > β-CD > γ-CD > α-CD, where the complex formation constants (K ₁₁) were 1377, 693, 126 and 60 M⁻¹, respectively. Also ionization of the slightly acidic Celox (pK _a=9.7) was found to reduce its tendency to complex (i.e., The K ₁₁ values of Celox/β-CD in 0.05 M phosphate buffer were 976 and 210 M⁻¹ for neutral and ionized Celox, respectively). Increasing citrate and phosphate buffer concentration enhances the tendency of ionized Celox to complex with β-CD as a result of a corresponding decrease in the inherent solubility (S ₀) of the Celox anion. On the other hand, these two buffers interact differently with neutral Celox and β-CD, where increasing phosphate buffer concentration at low pH enhances the complexation of neutral Celox by lowering S ₀, while increasing citrate buffer concentration at low pH reduces complex formation as citrate buffer species, mainly citric acid, act as a solublizer and a competitor for Celox and β-CD. The contribution of Celox hydrophobicity for complex stability constitutes about 77% of the driving force for complex stability. The complex formation of neutral Celox with β-CD (ΔG ⁰=−28.6 kJ/mol) is driven by both enthalpy (ΔH ⁰=−21.7 kJ/mol) and entropy (ΔS ⁰=23.3 J/mol K) changes.     

指向核心素养的课堂教学行为分析及水平特征研究——基于高中化学水溶液主题

通过对国内外课堂教学行为观察的相关文献与指向核心素养教学的本质、特点、要求的综合考虑,提出了素养为本的课堂教学行为理论框架;选取了基于水溶液主题的4个典型课例,用素养为本的教学行为理论框架对其进行编码分析,通过分析讨论每个教学行为的时间、频次以及情境素材的选取情况,将素养为本的课堂划分成了4个水平,对每个水平进行定性描述、抽提关键教学行为,并概括出不同水平之间进阶的核心教学行为。     

荧光探针法研究连接基团对双子型阳离子表面活性剂聚集行为的影响

利用荧光探针法和表面张力法测定了新型双子型阳离子表面活性剂的临界胶团浓度(cmc)、最低表面张力(γ_cmc)、胶团微极性和胶团聚集数(N_agg),探讨了连接基团对此类表面活性剂在水溶液中聚集行为的影响.结果表明,当连接基团增长时,cmc和胶团微极性增加,γ_cmc增大,N_agg减少,表面活性降低,在溶液中自发形成胶团的能力减弱.     

Effect of Association of Curcumin with Chitosan in Presence of TX 100 on Its Degradation

The binding of curcumin with chitosan in the presence of nonionic surfactant, iso-octylphenoxy-polyethoxy-ethanol (Triton X-100) and its stability in such systems have been investigated by monitoring the changes in the absorption spectra at physiological pH (7.4). It was observed that curcumin binds to chitosan more than 10 times stronger in presence of TX 100 at the experimental condition. From spectrophotometric analysis of the kinetics of degradation of the dye, it was observed that the yield of suppression of degradation of curcumin by chitosan increases by 33.5% in the presence of TX 100 than alone. The interaction of the dye with chitosan has been found to be exothermic and driven by hydrophobic interactions, hydrogen bond formation, and electrostatic interactions.