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141.
生物固体大分子诸如核酸、蛋白和病毒颗粒,因其尺寸超出了分子间作用力的范围,升温之后会导致它们降解而无法形成生物大分子的液体形态。 因此,发展新型的合成和制备策略,实现无溶剂包覆的生物大分子的流体态及其应用,是一个崭新的研究领域。 结合我们前期工作,简要介绍了核酸、蛋白流体(液晶态和液体态)材料的制备及性质。 借助静电力自组装,上述生物大分子能够与带有相反电荷的表面活性剂结合,形成热致液晶材料,其热致液晶性质使得生物分子具有长程有序性和流动性,在此基础上,可以探索生物大分子在无水环境下的技术应用。 相似文献
142.
Kevin F. Morris Eugene J. Billiot Fereshteh H. Billiot Jordan A. Ingle Stephanie R. Zack Kevin B. Krause 《Journal of Dispersion Science and Technology》2018,39(1):45-54
Molecular dynamics simulations were used to characterize the binding of the chiral drugs chlorthalidone and lorazepam to the molecular micelle poly-(sodium undecyl-(L)-leucine-valine). The project’s goal was to characterize the nature of chiral recognition in capillary electrophoresis separations that use molecular micelles as the chiral selector. The shapes and charge distributions of the chiral molecules investigated, their orientations within the molecular micelle chiral binding pockets, and the formation of stereoselective intermolecular hydrogen bonds with the molecular micelle were all found to play key roles in determining where and how lorazepam and chlorthalidone enantiomers interacted with the molecular micelle. 相似文献
143.
Nana Sun Huayi Jiang Xiaoxu Wang Kaibin Jin 《Journal of Dispersion Science and Technology》2018,39(3):411-422
The effects of the types and contents of surfactants, alkali types and concentrations, oil-water ratios, mixing speeds, and emulsifying temperatures on the rheology of heavy oil-in-water (O/W) emulsions were studied. The experimental results showed that the apparent viscosity increased as the formulated surfactant content increased. The organic/inorganic alkali played a twofold role in the apparent viscosity of the O/W emulsion, promoting the ionization of these interfacial active components and compressing the diffused double layer, the competition of which determined whether the apparent viscosity increased or decreased. With increasing oil-water ratios, the apparent viscosity increased, whereas an increase in the emulsifying temperature resulted in a decrease of the apparent viscosity. When the mixing speed was increased from 500 to 1000?r/min, the apparent viscosity increased. However, the apparent viscosity changed minimally for mixing speeds in the range of 1000–1500?r/min. To further discuss the impacts of these factors on the emulsion rheology and pressure drop, the results of an orthogonal test were analyzed through ANOVA using SPSS software; the pressure drops in the samples were calculated using Matlab software. The results demonstrated that the effects of the oil-water ratios on emulsion viscosity and pressure drop were the most prominent. 相似文献
144.
Yi Xu Siyu Guo Xinjian Mao Jian Feng 《Journal of Dispersion Science and Technology》2018,39(3):443-451
The self-assembly behaviors of a series of zwitterionic heterogemini surfactants CmH2m+1-PO4–(CH2)2-N+(CH3)2-CnH2n+1, abbreviated as Cm-P-N-Cn (m, n?=?9, 9; 9, 12; 9, 15; 9, 18; 12, 12; 12, 15; 12, 18; 15, 15; 15, 18; 18, 18), have been investigated in aqueous solution by the dissipative particle dynamics (DPD) method. Morphologies such as sphere (S), rod (R), planar grid (PG), lamella (L), honeycomb (H), one-, two-, and three-dimensional tunnels (1DT, 2DT, and 3DT) have been observed showing more diversities than those of the corresponding symmetric gemini surfactants Cm-N-N-Cm (m?=?9, 12, 15, 18). With the increase of surfactant concentration in the aqueous solution, a distinct transition path ‘‘S—R—PG—3DT—L—2DT—1DT’’ is proved to be common for all the Cm-P-N-Cn systems. Besides, the hydrophobic chain length has a significant influence on the self-assembly behaviors in the case of m?≠?n. Radial distribution function is an effective method to quantitatively evaluate the interaction and relationship between each functional group in the surfactant molecule and water. Results can provide a new insight into the self-assembly behaviors of zwitterionic heterogemini surfactants and the corresponding applications. 相似文献
145.
Meena Kumari Upendra Kumar Singh Abbul Bashar Khan Maqsood Ahmad Malik 《Journal of Dispersion Science and Technology》2018,39(10):1462-1468
The effect of bovine serum albumin on the surface properties of IL-type gemini surfactant ([C10-4-C10im]Br2), have been investigated by surface tension method. The critical micelle concentration (CMC) as a function of BSA concentrations at various temperatures was investigated. The CMC of [C10-4-C10im]Br2 increases with increasing the concentration of BSA as well as the temperature of the system. The interfacial parameters viz; maximum surface excess concentration (Γmax), the minimum area per molecule (Amin), and surface pressure at CMC (Πcmc) were calculated. In addition, thermodynamic parameters of adsorption and micellization were evaluated by using surface tension data. The results indicated that the binding of [C10-4-C10im]Br2 to BSA is spontaneous and exothermic in nature. The process is entropy driven and hydrophobic interactions are the major driving forces. 相似文献
146.
《Surface and interface analysis : SIA》2018,50(3):369-377
Drug delivery to the body via the inhaled route is dependent upon patient status, device use, and respirable formulation characteristics. Further to inhalation, drug‐containing particles interact and dissolve within pulmonary fluid leading to the desired pharmacological response. Pulmonary surfactant stabilises the alveolar air‐liquid interface and permits optimal respiratory mechanics. This material represents the initial contacting surface for all inhaled matter. On dissolution, the fate of a drug substance can include receptor activation, membrane partitioning and cellular penetration. Here, we consider the partitioning behaviour of salbutamol when located in proximity to a simulated pulmonary surfactant monolayer at pH 7. The administration of salbutamol to the underside of the surfactant film resulted in an expanded character for the 2‐dimensional ensemble and a decrease in the compressibility term. The rate of drug partitioning was greater when the monolayer was in the expanded state (ie, inhalation end‐point), which was ascribed to more accessible areas for molecular insertion. Quantum mechanics protocols, executed via Gaussian 09, indicated that constructive interactions between salbutamol and integral components of the model surfactant film took the form of electrostatic and hydrophobic associations. The favourable interactions are thought to promote drug insertion into the monolayer structure leading to the observed expanded character. The data presented herein confirm that drug partitioning into pulmonary surfactant monolayers is a likely prospect further to the inhalation of respirable formulations. As such, this process holds potential to reduce drug‐receptor activation and/or increase the residence time of drug within the pulmonary space. 相似文献
147.
《Electroanalysis》2018,30(5):943-954
A simple voltammetric nanosensor was described for the highly sensitive determination of antiviral drug Tenofovir. The benzalkonium chloride and silver nanoparticles were associated to build a nanosensor on glassy carbon electrode. Surface characterictics were achieved using scanning electron microscopic technique. The voltammetric measurements were performed in pH range between 1.0 and 10.0 using cyclic, adsorptive stripping differential pulse and adsorptive stripping square wave voltammetry. The linear dependence of the peak current on the square root of scan rates and the slope value (0.770) demonstrated that the oxidation of tenofovir is a mix diffusion‐adsorption controlled process in pH 5.70 acetate buffer. The linearity range was found to be 6.0×10−8–1.0×10−6 M, and nanosensor displayed an excellent detection limit of 2.39×10−9 M by square wave adsorptive stripping voltammetry. The developed nanosensor was successfully applied for the determination of Tenofovir in pharmaceutical dosage form. Moreover, the voltammetric oxidation pathway of tenofovir was also investigated at bare glassy carbon electrode comparing with some possible model compounds (Adenine and Adefovir). 相似文献
148.
Hexadecane-in-water emulsion droplets were formed in a homogeniser in the presence of a mixture of an anionic surfactant
(sodium dodecyl sulfate, SDS) and nonionic surfactants of various chain lengths [nonylphenol ethoxylate (C9φEN, N=100, 40 and 30) or an alcohol ethoxylate (Brij35)]. The dynamic mobility of the oil droplets was then measured using a flow-through
version of an AcoustoSizer. Large changes were observed in the dynamic mobility of the particles formed with the mixed surfactants
compared to particles formed with SDS alone. O'Brien's “gel layer” model was employed to interpret the data. The characteristics
of the adsorbed layer appeared to be similar whether the nonionic surfactant was adsorbed concurrently with the SDS as the
emulsion formed or was merely added afterwards to the emulsion established. The particle size, the charge and the molar fraction
of SDS had virtually no effect. The layers formed with the nonionic surfactants decreased in thickness with decreasing molecular
weight as expected. Passage through the homogeniser itself had no effect on the properties of the largest nonionic surfactant
and, hence, on the adsorption layer formed with it.
Received: 4 October 2000 Accepted: 16 October 2000 相似文献
149.
The polymerisation of styrene in lyotropic liquid-crystalline (LC) phases of dioctadecyldimethylammonium bromide (DODAB)
in water is explored. Amphiphile concentrations between 20 and 50 wt % are employed. The study is set out as a model study
for polymerisation reactions in nonstabilised, nonfunctional bilayer systems. X-ray characterisation was used to assess the
phase behaviour of the lyotropic mesophases before, during and after polymerisation. The DODAB/water system forms the lamellar
phase within the concentration range considered. Addition of styrene to the lamellar phase of DODAB at an equimolar ratio
induces a phase shift to a bicontinuous cubic phase at elevated temperatures near the phase-transition temperature. Upon polymerisation
within this cubic phase, the phase structure is maintained if the system is kept at constant temperature; however, if the
polymer/amphiphile phase is cooled, the lamellar phase, being typical of the DODAB/water system, is restored. It is concluded
that, as a result of phase separation between the polymer and the amphiphile phase, the polymerisation in lyotropic LC phases
does not provide a stable copy of the templating amphiphile phase. This is in analogy to the observations for polymerisations
in other lyotropic phases.
Received: 16 March 2000 Accepted: 1 July 2000 相似文献
150.
Sodium (3-dodecanoyloxy-2-hydroxy-propyl) succinate (SLGMS) is a conjugated anionic surfactant in which a glycerol residue
connects with a hydrophilic sodium succinate and dodecanoate. Aqueous micellar phase (Wm), hexagonal (H1), bicontinuous cubic (V1), and lamellar (Lα) phases are successively formed with increasing the surfactant concentration in a binary SLGMS-water system. The Krafft point
is below 0 °C. The effective cross sectional area per surfactant molecule, a
s, in the H1 phase is almost constant, 0.5 nm2, and the shape of cylindrical micelle is almost unchanged with surfactant concentration. The cmc value of SLGMS measured
by means of surface tension, electrical conductivity, and fluorescence probe methods is in the range of 4∼9 × 10−5 mol/l that is much lower than that of sodium dodecanoate, 2 × 10−2 mol/l, or SDS, 8 × 10−3 mol/l. Hence, it is considered that the polar glycerol part in the SLGMS acts as a hydrophobic part. The solubilization of
oil in the SLGMS solution is much higher than that in the SDS solution and this also suggests that the glycerol and succinic
units act as lipophilic moieties.
Received: 15 June 2000/Accepted: 27 July 2000 相似文献