氯化锂对纤维素/离子液体浓溶液纺丝的影响

以离子液体1-烯丙基-3-甲基咪唑氯盐（[AMIM]Cl）为溶剂、氯化锂（LiCl）为添加剂,通过测定纤维素溶液的流变性能来考察LiCl对纤维素/[AMIM]Cl溶液纺丝性能的影响,发现纤维素/[AMIM]Cl/LiCl呈现切力变稀行为,当LiCl添加量为[AMIM]Cl质量的3%时,切力变稀行为最明显.使用双螺杆挤出机通过干湿法纺丝制备出了高浓度的纤维素纤维,通过XRD、偏光显微镜、SEM及单纤强力仪等表征了纤维的结构与性能,结果表明随着LiCl含量的增加,所得纤维的结晶度和双折射率增加,结构致密,纤维强度增加,当LiCl含量达3%时,纤维强度可达3.13 cN/dtex.     

可再分散乳胶粉对泡沫混凝土的改性作用

针对普通泡沫混凝土受环境变化及自身因素影响容易开裂的问题,通过加入可再分散乳胶粉,改善材料的抗裂性能.结果表明,可再分散乳胶粉、聚丙烯纤维、纤维素醚等外加剂的复掺,可以提高泡沫混凝土的柔韧性和抗冲击性能。     

Preparation of treelike and rodlike carboxymethylated nanocellulose and their effect on carboxymethyl cellulose films

In this work, carboxymethyl cellulose (CMC) with low substitution degree, followed by different posttreatments, was applied to prepare treelike CMC nanofibrils (CMCNFs) and rodlike CMC nanocrystals (CMCNCs), and their performance in CMC composite film was evaluated simultaneously. From transmission electron microscopy results, it was found that the treelike CMCNCFs exhibited a lager aspect ratio compared to the rodlike CMCNCs. As for reinforcing CMC film, 4 wt% was the best adding amount, at this time, the tensile strength of CMC/CMCNFs and CMC/CMCNCs composite films was increased by 72.1% and 47.3%, respectively. Moreover, adding these nanofillers to CMC also could enhance the thermal stability of composite films slightly, while the transmittance of composite films was reduced at the same time. In addition, CMC/CMCNFs film was designed as a packaging box to determine its performance. Therefore, this study could reveal the differences of properties for composites with different types of nanocellulose and provide a foundation for further application of nanocellulose.     

Removal behavior and mechanism of silver from low concentration wastewater using cellulose aerogel modified by thiosemicarbazide

Due to the low concentration of silver in water, most of the cellulose adsorbents exhibited low removal efficiency, which greatly limited their practical applications. Herein, a cellulose aerogel modified by thiosemicarbamide (CAT) was fabricated for reducing and adsorbing silver ions from low concentration wastewater. The characterization results concluded that CAT owned a three-dimensional spongy structure with many circular microspheres and a better specific surface area (19.37 m² g⁻¹), as well as the functional groups of ─C═N⁺─H and ─(C═S)─N. The static batch adsorption experiments demonstrated that CAT could reached the maximum removal percentage of 94.94% and adsorption capacity of 42.12 mg g⁻¹ under the initial concentration of Ag(I) was 15 mg L⁻¹ and the pH value was 7. Meanwhile, the adsorption of Ag(I) on CAT was second-order reaction, and the Langmuir model could better fit the adsorption process. In addition, CAT exhibited wide pH values (1–9) adaptability and excellent adsorption performance for silver through electrostatic interaction, chelation, and reduction. This study probably provides a new method as well as important experimental data and theoretical reference for the removal of silver ions and other metals.     

Viscoelastic properties and flow instabilities of aqueous suspensions of cellulosic fibers: Effects of a gelation agent on dispersion,rheology, and flow stability

Processing of concentrated lignocellulosic biomass suspensions typically involves the conversion of the cellulose into sugars and sugars into ethanol. Biomass is usually pretreated via methods like comminution or steam explosion to form fine cellulosic fibers to be dispersed into an aqueous phase for further treatment. The resulting cellulose suspensions need to be pressurized and pumped into and out of various processing vessels without allowing the development of flow instabilities that are typically associated with “demixing”, that is, the segregation of the cellulosic biomass from the aqueous phase via the formation of mats of cellulosic fibers and the filtration of the aqueous phase. Such demixing can prevent continuous processing at high rates. Here, the development of flow instabilities via the demixing effect for cellulose suspensions is demonstrated using capillary and compressive squeeze flows. It is shown that the use of a gelation agent, hydroxypropyl guar gum, at the critical concentration of 0.5 wt% or higher significantly affects the viscoelastic material functions of cellulosic suspensions, improves the dispersive mixing of the fibers within the aqueous phase, and results in the elimination of the flow instabilities and associated demixing effects that are ubiquitously observed during the pressurization and processing of cellulosic suspensions.     

Formulation and development of ophthalmic in situ gel for the treatment ocular inflammation and infection using application of quality by design concept

Context: The conventional liquid ophthalmic delivery systems exhibit short pre-corneal residence time and the relative impermeability to the cornea which leads to poor ocular bioavailability.

Objective: The aim of this study was to apply quality by design (QbD) for development of dexamethasone sodium phosphate (DSP) and tobramycin sulfate (TS)-loaded thermoresponsive ophthalmic in situ gel containing Poloxamer 407 and hydroxyl propyl methyl cellulose (HPMC) K4M for prolonging the pre-corneal residence time, ocular bioavability and decreases the frequency of administration of dosage form. The material attributes and the critical quality attributes (CQA) of the in situ gel were identified. Central composite design (CCD) was adopted to optimize the formulation.

Materials and methods: The ophthalmic in situ forming gels were prepared by cold method. Materials attributes were the amount of Poloxamer 407 and HPMC and CQA identified were Gel strength, mucoadhesive index, gelation temperature and % of drug release of both drug.

Results and discussion: Optimized batch (F*) containing 16.75% poloxamer 407 and 0.54% HPMC K4M were exhibited all results in acceptable limits. Compared with the marketed formulation, optimized in situ gel showed delayed T_max, improved C_max and AUC in rabbit aqueous humor, suggesting the sustained drug release and better corneal penetration and absorption.

Conclusion: According to the study, it could be concluded that DSP and TS would be successfully formulated as in situ gelling mucoadhesive system for the treatment of steroid responsive eye infections with the properties of sustained drug release, prolonged ocular retention and improved corneal penetration.     

纤维素醚改性水泥浆的粘度变化研究

增稠是纤维素醚对水泥基材料的重要改性效果。研究了纤维素醚掺量、粘度仪旋转速度和温度对纤维素醚改性水泥浆粘度变化的影响。结果表明:纤维素醚掺量增加,水泥浆的粘度不断增加,纤维素醚溶液和水泥浆的粘度具有"复合叠加效应";纤维素醚改性水泥浆的假塑性低于纯水泥浆,粘度仪的旋转速度越低,或纤维素醚改性水泥浆的粘度越低,或纤维素醚掺量越低,纤维素醚改性水泥浆的假塑性越明显;温度升高,由于温度和水泥水化的共同作用,纤维素醚改性水泥浆的粘度会增加或降低。纤维素醚的种类不同,其改性水泥浆的粘度变化规律存在差异。     

Triethylenetetramine/hydroxyethyl cellulose-functionalized graphene oxide monoliths for the removal of copper and arsenate ions

Nitrogen-doped graphene oxide monoliths (GOMs) were readily constructed by crosslinking graphene oxide (GO) using triethylenetetramine (TETA) and hydroxyethyl cellulose (HEC). The addition of HEC was beneficial to the formation of a network structure compared to that in the absence of HEC. The generated monoliths have shown various morphologies with different d spacing, layer thickness, and micropore size. Fourier transform infrared (FTIR) and X-ray photoelectron spectroscopy (XPS) analyses provided evidences for the formation of covalent C–N bonds and some nitrogen-containing heterocyclic composition inside the graphene oxide sheet, indicating that the interaction of GO with the amine crosslinker involved the crosslinking reaction between GO epoxides and amine groups. HEC was also involved in the N-doping reaction via the partial reduction of oxygen in HEC molecules. Analysis of X-ray diffraction (XRD) results indicated that the lattice distance between GO sheets increased after TETA/HEC crosslinking. Thermogravimetric analysis (TGA) confirmed the successful incorporation of crosslinker moieties on the surface of GO sheets. The fabricated GOMs could be used to efficiently adsorb metal ions and arsenate by the introduced polar functional groups on GO sheets and porous structures based on hydrogen bonds, whose morphologies and compositions were confirmed via XRD, scanning electron microscopy (SEM) and energy-dispersive X-ray spectroscopy (EDS).     

茶末/CMC-Na/AL-Na复合膜制备及性能测定

目的 为改善传统保鲜膜带来的环境污染问题,开发出具有较好力学性能和抗菌性的食品包装材料提供理论依据。方法 采用海藻酸钠(AL-Na)和羧甲基纤维素钠(CMC-Na)为主要成膜材料,辅助添加茶末通过流延成膜法制备复合膜,以拉伸强度、断裂伸长率等为依据,通过单因素和响应面试验确定茶末/CMC-Na/AL-Na复合膜的最佳工艺。结果 当CMC-Na与AL-Na的体积比为84∶16、茶末添加量为1.43%、干燥温度为50 ℃、干燥时间为7 h时,复合膜综合性能最优,拉伸强度为16.60 N/mm²,断裂伸长率为19.11%,具有较好的力学性能、耐水性、抗氧化性和抑菌性。结论 制备的茶末/ CMC-Na/AL-Na复合膜具有较好的力学性能和抗氧抑菌性能。