Encapsulation and controlled release of fragrances from functionalized porous metal–organic frameworks

In the fragrance and perfume industry, the encapsulation and controlled release of fragrance is important to appeal to consumers and promote the quality of products. Here, we demonstrate that porous metal–organic frameworks (MOFs) can effectively encapsulate and release fragrant molecules in a controlled manner. The incorporation of functional groups into MOFs can improve the adsorption and release behavior of fragrant molecules. We find that polar ester-type fragrances exhibit higher adsorption on polar hydroxyl-functionalized MOF [UiO-66-(OH)₂] than on nonpolar MOF (UiO-66), while nonpolar terpenoid-type fragrances show no adsorption difference between these two MOFs. The release profiles show that UiO-66-(OH)₂ can prolong the release of polar fragrances compared with nonpolar fragrances. Both the experimental results and computer molecular modeling demonstrate that the hydroxyl groups in UiO-66-(OH)₂ can form strong hydrogen binding with different ester fragrances. The releasing kinetics indicates that pore diffusion is the rate-limiting step of fragrance release from MOFs. © 2018 American Institute of Chemical Engineers AIChE J, 65: 491–499, 2019     

采用还原剂-甲酸法溶解制备羊毛角蛋白质溶液

为获得纤维溶解率高且蛋白质分子质量大的羊毛角蛋白质溶液,对溶解纤维的工艺方法进行研究和优化。在采用三羟基有机磷还原剂有效打开羊毛纤维分子内二硫键的基础上,重点研究了还原处理后羊毛纤维在甲酸溶液中的溶解状态。对纤维溶解率、角蛋白质溶液黏度和蛋白质分子质量分布等进行测试,获得还原剂-甲酸法溶解制备角蛋白质溶液的最优工艺,并分析了该角蛋白质溶液的稳定性能。结果表明:在角蛋白质溶液的最优制备工艺条件下,即预处理后的羊毛纤维质量为5 g,甲酸体积为100 mL,溶解温度为50 ℃,溶解时间为5 h时,羊毛纤维的溶解率为65%左右,角蛋白质的分子质量分布主要集中在40~50 ku、26 ku、14.4 ku处,且在常温环境下该羊毛角蛋白质溶液的稳定性较好。     

三系培育新品种朝天椒的农艺性状与品质特性研究

为新品种朝天椒的开发利用提供理论依据,以编号为1~5的5份不同杂交组合的三系培育新品种朝天椒种质资源为受试材料,采用综合方法分析了其农艺性状和以辣椒素含量和挥发性物质为主的品质特性。结果表明,5种朝天椒的农艺性状存在较大差异,其果长为6.7~9.3 cm,果重2.40~6.26 g,种子数比15.3~28.1个/g,果肉比71.10%~83.93%。5种朝天椒均具有较高的营养价值,但其营养品质有所不同。其中,1号朝天椒的碳水化合物、粗脂肪和灰分含量最高,2号朝天椒的水分含量最高,3号朝天椒的维生素C含量最高,5号朝天椒的蛋白质含量最高。5种朝天椒的辣椒素含量较高且具有较高的辣度,其中5号朝天椒的辣椒素类物质含量最高（1.128 g/kg）,斯科维尔指数为17399 SHU,辣度为116;2号朝天椒的辣椒素类物质含量最低（0.464 g/kg）,斯科维尔指数为7157 SHU,辣度为48。5种朝天椒中共检出100种挥发性物质,其中烯烃类物质的相对含量最高（39.20%~61.73%）,其共同的呈香物质主要为烯烃类、酯类和醇类,但该3类物质的种类与相对含量存在较大差异。Pearson相关性分析结果显示,新品种朝天椒的辣度与其果重和果肉比呈极显著负相关（P<0.01）,与其种子数比呈极显著正相关（P<0.01）。综合分析认为,5种新品种朝天椒均具有较高的辣度和营养价值、良好的色泽和香气,均是加工干椒的适宜品种,尤其是5号,且2号、3号和4号朝天椒还可鲜食、泡制、腌制或发酵。     

混菌发酵对沃柑果酒品质改善作用

为更好的提升沃柑果酒的品质,本研究将酿酒酵母（Saccharomyces cerevisiae）、毛榛毕赤酵母（Pichia manshurica）和植物乳杆菌（Lactobacillus plantarum）分别进行沃柑果酒的单菌与混菌发酵,并对发酵过程中的理化指标进行检测,同时对发酵产生的风味物质进行分析比较。结果表明,酿酒酵母、毛榛毕赤酵母和植物乳杆菌混合发酵组（Zp组）糖利用率最高,还原糖含量为2.54±0.02 g/L,总酸为5.34±0.28 g/L。相对于其他发酵组,Zp组抗氧化性最强,总酚含量为279.82±1.36 mg/L,超氧阴离子含量为71.23±0.65μmol/mL,羟自由基清除率为70.75%±0.17%。采用液相色谱-质谱法（LC-MS）对发酵样品的有机酸进行测定,发现乳酸和乙酸是沃柑果酒发酵过程中产生的主要有机酸,且Zp组总有机酸的相对含量低于其它发酵组为7.9%,表明植物乳杆菌有良好的生物降酸能力。采用气相色谱-质谱法（GC-MS）对发酵样品的香气成分进行测定,共检出68种挥发性成分。相比单菌发酵组,酿酒酵母和毛榛毕赤酵母两菌发酵组（Sk组）和三菌发...     

Enhanced hollow fiber membrane performance via semi-dynamic layer-by-layer polyelectrolyte inner surface deposition for nanofiltration and forward osmosis applications

The layer-by-layer (LBL) polyelectrolyte deposited membranes have drawn increasing attention in various applications due to the ease of selective layer formation and their stability and versatility. In this study, the LBL deposition was performed at the inner surface of the polyethersulfone (PES) hollow fiber substrate to form composite nanofiltration (NF) membrane. The semi-dynamic deposition procedure was adopted with the aid of syringes. The newly developed inner deposited (id-LBL) membranes were then tested in NF and forward osmosis (FO) applications and the performance were compared with outer surface deposition as well as some literature data. The id-LBL membranes could not only withstand higher operating pressure but also possess superior hardness rejection especially in high concentration mixed salt solutions (more than 95% rejection to Mg²⁺ and Ca²⁺ in a 5000 ppm total dissolved salt (TDS) mixture under 4.8 bar). As for the FO process, with only two layer deposition, the id-LBL membranes also demonstrated significant performance improvement with increased water flux (up to 70 L/m² h using 0.5 M MgCl₂ as draw solution in active layer facing draw solution configuration) and reduced salt leakage (around 0.5 g/m² h using 1 M MgCl₂ draw solution in active layer facing feed water configuration). This study suggests that for hollow fiber substrate, the inner surface is more suitable for the formation of the selective layer via LBL deposition than the outer surface.     

Fe–N–Si tri-doped carbon nanofibers for efficient oxygen reduction reaction in alkaline and acidic media

The most ideal substitute for Pt/C to catalyze the oxygen reduction reaction (ORR) is the transition metal and nitrogen co-doped carbon-based material (TM-N-C). However, large particles with low catalytic activity are formed easily for the transition metals during high-temperature carbonization. Herein, PAN nanofibers uniformly distributed with FeCl₃ were coated with SiO₂ and then carbonized to obtain Fe–N–Si tri-doped carbon nanofibers catalyst (Fe–N–Si-CNFs). The SiO₂ can further anchor the Fe atoms, thus preventing agglomeration during the carbonization process. Meanwhile, Si atoms have been doped in CNFs during this process, which is conducive to the further improvement of catalytic performance. The Fe–N–Si-CNFs catalyst has a 3D network structure and a large specific surface area (809.3 m² g⁻¹), which contributes to catalyzing the ORR. In alkaline media, Fe–N–Si-CNFs exhibits superior catalytic performance (E_1/2 = 0.86 V vs. RHE) and higher stability (9.6% activity attenuation after 20000s) than Pt/C catalyst (20 wt%).     

Geospatial analysis for utilizing the marginal land in regional biofuel industry: A case study in Guangdong Province,China

Due to the intensive and exhaustive land use in China, the so-called marginal land is expected to play a major role in supporting the biofuel industry of the country. We developed a regional-level framework of using geospatial information technologies to achieve an optimal utilization of the marginal land for biofuel production. The framework includes identifying marginal lands, evaluating optimality of the land for growing certain bioenergy crops, estimating local potential feedstock production, and finally selecting optimal sites for biofuel factories. We present a case study of farming Jatropha (Jatropha curcas L.) and Cassava (Manihot esculenta Crantz) in Guangdong, China. The marginal land was identified from satellite imageries at a 30-m resolution. The optimality for growing the two species was evaluated using the Ecological Niche Models (ENMs), which incorporates local temperature, precipitation, soil, and terrain. The optimality value was then converted into potential feedstock production using a conversion model. The site selection for the factories incorporated the local potential feedstock production, the transportation cost measured by road distance, and the farming cost related to the land patch geometry. Each candidate site received an overall optimality score derived based on those factors. We identified five sites that have high scores and also minimal or none spatial overlaps of their supporting areas. Three of them (Zhanjiang, Yunfu, and Jieyang) are for Cassava, located on in southern Guangdong. Two (Qingyuan and Meizhou) are for Jatropha in northern Guangdong.     

Improvement in flame retardancy of polyurethane dispersions by newer reactive flame retardant

A novel phosphorus containing reactive flame retardant was synthesized and incorporated successfully in polyurethane backbone to obtain flame retardant aqueous polyurethane dispersions (FRPUDs). The reactive flame retardant compound was synthesized by using phosphorus oxychloride (1 mole) and N-methylaminoethanol (3 mole). The structure of synthesized phosphorus containing triol was confirmed by FTIR, ¹H NMR and ³¹P NMR spectrometry. Further, polyurethane prepolymer was modified with phosphorus containing triol compound in various amounts (30, 40 and 50% on equivalent basis) and FRPUDs were prepared. PUD films were applied on wood and mild steel panels and air dried. It was then characterized for mechanical, chemical, thermal and flame retardant properties. It was observed that all FRPUDs exhibited good mechanical properties and improved flame retardancy as compared to the conventional one. The maximum limiting oxygen index (LOI) value of 37 was obtained for FRPUD containing 0.8 mass% of phosphorus and 1 mass% of nitrogen. The flame retardancy was greatly depending on the phosphorus content and increased with increase in phosphorus content.     

Simplification and applicability studies of a hydrogen-air detailed reaction mechanism

The research of hydrogen fuel internal combustion engine (HICE) had great significance facing the challenges of energy and environmental problems. Based on the detailed hydrogen-air reaction mechanism, the pre-mix model of CHEMKIN-Pro software was selected to simplify the detailed mechanism GRI-3.0. The most important elements and reactions was chose to construct framework mechanism firstly based on the sensitivity coefficient for H₂O and NO formation, and additional elements and reactions were added to framework mechanism for complementing the oxidation path of N2 and H₂. A simplified mechanism including 24-step elementary reaction was obtained and the laminar burning velocity calculated by this simplified mechanism matches well with the detailed mechanism in a wide range. This simplified mechanism was also applied in a CFD model which predicted the cylinder instantaneous pressure and NOx emission accurately within a large range of fuel air equivalent ratio. Showing that this mechanism has good applicability.