The protective effect of cyclodextrin on the color quality and stability of Cabernet Sauvignon red wine

The impact of cyclodextrins(CDs)on wine quality and stability remains largely unknown.This study systematically assessed the protective effect of the post-fermentation addition of CDs on color stability of red wine from the viewpoints of color characteristics,copigmentation and phenolic profiles.The grey relational analysis(GRA)and principal component analysis(PCA)methods were employed to dissect the key effective determinants related to color quality.The addition of CDs induced a significant hyperchromic effect of 8.19-25.40%,a significant bathochromic effect and an enhancement of the color intensity.Furthermore,the evolution of anthocyanin forms and the content of monomeric anthocyanins revealed that β-CD is a superior favorable cofactor during wine aging,but for long-term aging,2-HP-β-CD and 2-HP-γ-CD are more beneficial in promoting the formation of polymerized anthocyanins and color stability.This work provides an important reference for the use of CDs to enhance the color quality and stability of red wines.

Adsorption of Phenanthrene in Soil to Biochar Modified by β-Cyclodextrin

In this study, the adsorption effect of β-cyclodextrin modified biochar (BC) on phenanthrene (PHE) in contaminated soil was investigated, aiming to provide an efficient and environmentally friendly remediation strategy for Polycyclic Aromatic Hydrocarbons (PAHs) contaminated soil. Through kinetic and isotherm analysis, β-CDBC-CA showed excellent phenanthrene adsorption performance, and the adsorption effect increased with the increase of time and was affected by temperature. The results show that β-CDBC-CA can not only effectively adsorb phenanthrene in soil, but also serve as a surfactant to help desorption phenanthrene adsorbed by soil organic matter and improve the efficiency of microbial degradation. The experimental data showed that the Elovich model could describe the adsorption behavior of β-CDBC-CA on phenanthrene well, while Langmuir and Freundlich models performed better in fitting parameters, revealing the adsorption mechanism of phenanthrene in contaminated soil by β-cyclodextrin-modified biochar. In addition, temperature has a significant effect on the adsorption capacity of β-CDBC-CA, and its application in soil remediation can be optimized by adjusting temperature. This study not only provides new materials and technical means for soil remediation but also provides important data support for an in-depth understanding of the environmental behavior of PAHs. By citing relevant research results, this study further improves the control and understanding of environmental risks of PAHs, which is of great significance for the protection of ecological environment and human health.

Synthesis and Characterization of β-Cyclodextrin Modified Biochar Environmental Remediation Materials

In this paper, biochar (BC) was used as raw material, activated by deionizing aqueous solution, NaCl solution, CA solution and HCl solution respectively. Epichlorohydrin (EPI) was used as crosslinking agent, and β-cyclodextrin (β-CD) was used to modify biochar (BC). The prepared modified biochar materials were labeled with β-CDBC, β-CDBC-Na, β-CDBC-CA and β-CDBC-H, respectively. The infrared spectrum, X-ray diffractometer, scanning electron microscope and specific surface area of the four modified materials were tested. The results showed that the C-O stretching vibration peak at 1020 cm−1 of the modified materials was slightly offset compared with that of biochar. The characteristic absorption peaks of XRD pattern decrease obviously at 2θ = 26.7˚ and 29.5˚. It can be obviously observed on the electron microscope image that the surface is loaded or formed clathrates, and BET data and graphs also show that the specific surface area of the modified biochar is larger. Therefore, β-cyclodextrin successfully modified biochar and formed clathrates on the surface of biochar or was loaded in the pore structure of biochar, especially β-CDBC-CA achieved better modification effect. Because biochar and β-cyclodextrin raw materials are cheap, easy to prepare and green, and less prone to secondary pollution, it has a good advantage in environmental governance.

玉米芯-环糊精交联复合材料对染料分子的吸附性能

以玉米芯和β-环糊精为原料,通过一锅法制备了玉米芯-β-环糊精复合材料(CB-β-CD),通过FTIR、SEM、BET、热重分析仪对其进行了表征。考察了CB-β-CD对酸性品红(AF)和孔雀石绿(MG)在不同吸附条件下的吸附性能。结果表明,20 mL染料初始质量浓度为30 mg/L,加入10 mg吸附剂,吸附3 h,CB-β-CD对MG和AF的最大吸附量分别为52.16 mg/g和58.04 mg/g。MG在碱性条件下更有利于吸附剂的吸附,AF在酸性条件下更有利于吸附剂的吸附。AF和MG的吸附更符合准二级动力学模型和Langmuir等温吸附模型,整个吸附过程以单分子层化学吸附为主。经过5次循环使用,该材料的吸附性能仍可达到90%以上。

基于β-糊精氧化石墨烯管尖固相萃取/高效液相色谱检测生活饮用水中苯并[a]芘

以自制的β-糊精氧化石墨烯(β-CD@GO)装填入10mL移液器吸头作为固相萃取剂,结合高效液相色谱法对生活饮用水中苯并[a]芘进行检测,并对固相萃取条件进行了优化。苯并[a]芘在0.1~50μg/L范围内线性关系良好(r=0.9996),检出限为3ng/L(S/N=3)。在加标水平为0.5、5、40μg/L时,方法回收率为89.2%~92.5%,相对标准偏差为3.7%~5.2%。该方法操作简便快速、选择性好、灵敏度高、有机溶剂消耗少,可用于生活饮用水中苯并[a]芘快速检测分析。

磺丁基-β-环糊精-山奈酚的制备工艺及理化性能

采用相溶解度法研究2-磺丁基-β-环糊精对山奈酚的增溶作用和包合常数;以包合率为考察指标,考察包合工艺及包合过程中的理化性质变化规律。结果表明,磺丁基-β-环糊精-山奈酚包合物的相溶解度曲线为AL型,以n(磺丁基-β-环糊精)∶n(山奈酚)=1∶1形成包合物;最佳包合条件为m(磺丁基-β-环糊精)∶m(山奈酚)=3,t=40℃,t=4 h;t=45℃、c(磺丁基-β-环糊精)=1×10^(-2) mol/L,磺丁基-β-环糊精对山奈酚的增溶效果达到39.45倍;增溶效果在一定范围内与温度正相关;包合过程的热力学参数ΔG、ΔH和ΔS分别为-25.902 kJ/mol(318 K)、41.815 kJ/mol和213.51 J/(mol·K),表明包合反应为吸热反应,升高温度有利于包合反应的进行,反应能够自发进行;磺丁基-β-环糊精对山奈酚是一种较好的增溶载体。

蕲艾油-β-环糊精包合物膜剂的制备及工艺优化

为了提高挥发油在制剂中的生物利用度,采用β-环糊精对挥发油进行包合,再以羧甲基纤维素钠作为成膜材料,考察蕲艾油-β-环糊精包合物膜的最佳工艺.用饱和水溶液法制备蕲艾油-β-环糊精包合物,以外观评价、膜性质、脱模性能和贴肤度作为表征评价指标,通过正交试验考察蕲艾油用量、β-环糊精用量、羧甲基纤维素钠浓度以及甘油用量对成膜工艺的影响.结果:蕲艾油-β-环糊精包合物膜最佳成膜工艺为:蕲艾油用量为1.5 mL、β-环糊精用量为10 g、羧甲基纤维素钠∶去离子水为1∶20(W/V,g·mL^(-1))、甘油用量为6 mL,用去离子水定容至100 mL.结论:优选得到的成膜工艺简单、稳定、可行,为该剂型的后续开发奠定基础.

Solubilization of 2-Acetoxy-Benzencarboxylic Acid Using Beta Cyclodextrins

2-acetoxy-benzencarboxylic acid is one of the most famous salicylate drugs today, a pharmaceutically active compound known as aspirin. It is poorly soluble in water which results in decreased bioavailability of the drug in the organism. The increase in water solubility of insoluble or poorly soluble drugs is therefore of great importance, which is the aim of this study. Inclusion of the drug in the molecule with a higher water solubility significantly increases its solubility and biological availability. Natural and hydrophilic derivatives of natural cyclodextrins are in the spotlight for their role as solubilizing excipients. Studies indicate that the use of β-cyclodextrin inclusion complexes with acetylsalicylic acid formed, increases the solubility of the drug in water. Many advantages of drug-complexation with cyclodextrins have been reported in scientific literature which includes increased solubility, enhanced bioavailability, improved stability, masking of bad test or odour, reduced side effect. Orally administered aspirin requires high and frequent dosing because it undergoes extensive pre systematic metabolism. Also chronic oral aspirin use is associated with serious gastrointestinal side-effects. Complexation with CD alleviates the side effects to some extent. The bioavailability and solubility of aspirin has to be increased to overcome the side-effects of aspirin related to stomach and gastro intestinal tract. The phase solubility study was performed according to the method of Higuchi and Connors by adding the 2-acetoxi-benzencarboxylic acid in excess to different concentrations of different beta cyclodextrins solutions. Phase solubility study records shown that the stability constant and complex stoichiometry of 2-acetoxi-benzencarboxylic acid-CD complexes gives linearly improve with the concentration of CD. Complexes were analyzed by UV-VIS spectroscopy and were characterized by infrared spectroscopy.

连翘与陈皮混合挥发油提取与包合工艺优化

目的优选保和颗粒组方中连翘、陈皮混合挥发油提取工艺及β-环糊精(β-CD)包合工艺。方法以饮片粉碎粒度、提取时间、加水倍数为考察因素,挥发油收率为评价指标,采用L_(9)(3^(4))正交试验法优选。以β-CD与挥发油比例(g∶m L)、包合时间、包合温度为考察因素,挥发油包合率、包合物收率、包合物含油量的综合评分为评价指标,同上法优选包合工艺并验证。结果最佳提取工艺,将饮片粉碎至20目,加10倍水提取3 h。最佳包合工艺,β-CD∶挥发油为7∶1(g∶m L),45℃下包合反应3 h;紫外光谱扫描、X射线衍射、扫描电镜、薄层色谱等结果均证明形成了稳定的包合物。制成的包合物中连翘及陈皮混合挥发油的包合率为95.13%,包合物收率为87.84%,包合物含油量为10.29%,综合评分为76.70分。结论优化后的连翘及陈皮混合挥发油提取、包合工艺稳定可行。

羟丙基-β-环糊精通过加重自噬障碍降低稳转hSOD1G93A的NSC34细胞的活力

目的观察羟丙基-β-环糊精(HpβCD)对稳转hSOD1G93A的NSC34细胞活力的影响并探讨可能的机制。方法应用HpBCD分别干预对照组(稳转空质粒的NSC34细胞)和实验组(稳转hSOD1G93A的NSC34细胞),通过CCK-8试剂盒检测各组细胞活力,通过透射电镜观察细胞自噬结构,应用Western blotting检测human SOD1、LC3Ⅱ/Ⅰ、P62的蛋白表达水平。结果HpβCD干预后,稳转hSOD1G93A的NSC34细胞活力下降,细胞中humanSOD1含量及自噬结构明显增多,LC3Ⅱ/Ⅰ、P62蛋白的表达水平也显著增加。结论HpβCD降低稳转hSOD1G93A的NSC34细胞活力,这种细胞毒性作用可能是由于进一步加重了稳转hSOD1G93A的NSC34细胞的自噬障碍。

α-环糊精与α,β-亚乙基双十六烷基二甲基溴化铵的相互作用

为了研究不同类型的环湖精作为主体对包合不同客体的影响,采用表面张力法分别测定了25℃、35℃和45℃温度下的双子表面活性剂α,β-亚乙基双十六烷基二甲基溴化铵(C16-C2-C16)溶液的临界胶束浓度(0.428~0.470mmol/L),并计算了该体系形成胶束的热力学参数,研究了C16-C2-C16与α-环糊精(α-CD)的包结作用。结果表明,C16-C2-C16溶液形成胶束的过程是熵驱动的自发过程;包结物的包结比为2:1或4:1,即体系中存在着两种不同包结比的包合物;根据包结过程的热力学参数,该过程为放热的自发过程及熵增过程。

芥末精油微胶囊对草莓保鲜品质的研究

探究芥末精油-β-环糊精微胶囊可以作为天然的保鲜剂,延缓草莓的呼吸作用和抑制微生物生长繁殖,延长果实的贮藏期,采用壁材∶芯材(6∶1)配比制作芥末精油-β-环糊精微胶囊,草莓分别在微胶囊与对照组下考查了草莓的失重率、硬度、可溶性固形物含量、维C含量等保鲜品质参数。结果表明,对照组的草莓在室温下贮存7 d后的失重率比芥末精油微胶囊组高,而硬度、可溶性固形物含量、维C含量则比芥末精油微胶囊组低。由此可见,芥末精油微胶囊处理后的草莓在一定程度上可以延长保质期,提高草莓的保鲜作用,为开发芥末天然保鲜剂提供一定的理论基础。

羟丙基-β-环糊精-姜黄素包合物的制备及其光动力杀灭沙门氏菌的机制

沙门氏菌是国内外引起人类食源性疾病最主要的食源性致病菌之一,开发新型有效的抗菌技术对保障食品安全至关重要。本研究利用羟丙基-β-环糊精(HP-β-CD)的包合作用,包合姜黄素(Curcumin,CUR)作为光敏剂,研究其介导光动力技术(Photodynamic Inactivation Technology,PDI)对食品样品中鼠伤寒沙门氏菌ATCC14028的杀菌效果及作用机制。设置乙醇浓度为40%、HP-β-CD与CUR摩尔比为2:1,在45℃条件下包合4 h时,所形成的CUR包合率最大,为60.08%,该包合物经结构表征后测定其水溶性显著(P<0.05)提高,达到3.98×10^(3)μg/mL。结果表明,当包合物质量浓度(以CUR浓度计)为20µg/mL,初始鼠伤寒沙门氏菌菌落数量级为106 CFU/mL时,LED蓝光(450 nm)照射40 min可使菌落数减少3.73 lg(CFU/mL),可杀灭47.92%~64.40%的耐药沙门氏菌,并且对即食生菜中的沙门氏菌也有一定的控制作用。在光动力技术处理后,沙门氏菌胞内产生了较高水平的活性氧,胞内容物明显减少,推测CUR-HP-β-CD介导的PDI可能通过破坏细胞膜结构达到杀菌抑菌的目的。本研究将光动力杀菌技术应用于食品安全领域,这为食品工业中防治沙门氏菌等食源性致病菌的污染提供了重要的理论基础和技术支撑。

γ-环糊精-金属有机骨架负载黄芪甲苷的制备及其性质研究

目的 以γ-环糊精-金属有机骨架(CD-MOF)为载体制备载黄芪甲苷(AST)的AST@CD-MOF并研究其对AST溶解度、溶出速率、稳定性及A549细胞凋亡的影响。方法 以溶剂孵育法将AST负载于CD-MOF中,采用环境扫描电子显微镜、氮气吸附脱附等手段表征AST@CD-MOF的形貌和吸附特性,同时对AST@CD-MOF的溶解度、溶出速率、稳定性及诱导A549细胞凋亡能力进行考察,并与环糊精包合物(AST@γ-CD)和原料药进行对比。结果 制备得到的AST@CD-MOF形貌呈均一的立方晶体,粒径约为140 nm,优化后的AST@CD-MOF载药量为(32.29±2.57)%,且具有良好的稳定性;AST@CD-MOF中AST的溶出速率和累计溶出百分率均得到显著提升,在6 h内的累计释放率达到80%以上;AST@CD-MOF诱导细胞的总凋亡比率可达68.18%,显著高于游离AST和AST@γ-CD。结论 CD-MOF显著提高了AST的水溶性和溶出速率,增强了AST诱导A549细胞凋亡的能力。

肉豆蔻精油/羟丙基-β-环糊精包合物对冷鲜猪肉的保鲜效果

为研究肉豆蔻精油/羟丙基-β-环糊精(nutmeg essential oil/hydroxypropyl-β-cyclodextrin,NEO/HP-β-CD)包合物对冷鲜猪肉的保鲜效果,采用不同浓度的包合物结合浸泡法、涂抹法和无纺布法处理冷鲜猪肉,每隔2 d测定菌落总数、pH、挥发性盐基氮、硫代巴比妥酸值、质构、汁液流失率、色泽与感官指标。结果表明,NEO/HP-β-CD包合物添加量1%的无纺布法可有效降低贮藏过程中冷鲜猪肉的菌落总数、pH值、挥发性盐基氮含量,延缓猪肉质构特性与色泽劣变,提高感官品质;与对照组(6 d)相比,可延长贮藏期4 d。因此,NEO/HP-β-CD包合物添加量1%的无纺布法对冷鲜猪肉具有较好的保鲜效果。

电化学方法下的聚β-环糊精吸附苯胺特征

聚β-环糊精(聚β-CD)是通过电化学合成法制备的一形状类似β-环糊精(β-CD)锥筒型的β-环糊精聚合物。苯胺是一种危害较大的环境污染物之一,聚β-CD包合吸附苯胺(An)的机制研究对今后聚β-CD去除苯胺具有重要的意义。在298.15~323.15 K的温度范围内,以电聚合法合成的聚β-CD/聚苯胺(PANI)复合材料的荷电量为吸附量,通过6种吸附等温模型(Langmuir、Freundlich、Langmuir-Freundlich、Temkin、Henry和BET)和4种动力学方程(准一级动力学、准二级动力学、颗粒内扩散及Elovich方程)的拟合,考察了聚β-CD包合吸附苯胺过程中的等温模型及其吸附动力学特征。结果显示,在此温度范围内,Langmuir-Freundlich、Temkin等温吸附模型适合描述聚环糊精对苯胺的包合吸附,说明聚β-CD包合苯胺是单分子层与多分子层吸附共存,且其吸附热与温度呈线性关系,吸附热随表面覆盖率增加而下降;准一级动力学模型更适合模拟聚β-CD包合吸附苯胺的反应过程,表明聚β-CD包合吸附苯胺以物理吸附为主,因此聚β-CD可以应用于苯胺的去除。

静电纺丝紫苏醛/甲基-β-环糊精包合物纳米纤维的制备与表征

为提高紫苏醛(PA)的热稳定性和水溶性,扩展其应用,以甲基-β-环糊精(MβCD)为主体分子,PA为客体分子,通过静电纺丝技术制备了PA/MβCD包合物(PA/MβCD-IC)纳米纤维(PA/MβCD-IC-NF)。采用SEM、1HNMR、XRD、TGA、FTIR和分子模拟对PA/MβCD-IC-NF进行了表征和分析,测试了其相溶解度,评价了其抗氧化活性和抑菌性能。结果表明,PA已被成功地包裹在MβCD空腔中,形成PA/MβCD包合物;PA/MβCD-IC-NF为非晶体结构,直径分布较均匀且表面光滑,平均直径为(134±60)nm。质量浓度为12 g/L的PA/MβCD-IC-NF(2 cm×2 cm)在1 s内可完全溶解。与PA相比,PA/MβCD-IC-NF中PA的热稳定性和水溶性都显著提高。PA/MβCD-IC-NF的抗氧化活性明显高于PA,对大肠杆菌与金黄色葡萄球菌的抑制率分别为96.2%±0.1%和94.0%±0.3%。

6–氨基异喹啉的荧光增强及在白光膜中的应用

有机发光二极管(organic light-emitting diode,OLED)在新一代的照明、显示等领域有着广阔的应用前景。在OLED的制备中,蓝色荧光染料起着不可或缺的作用。使用苯磺酸(benzenesulfonic acid,BSA)将蓝色荧光染料6-氨基异喹啉(6-aminoisoquinoline,6-AIQ)质子化改性为6-AIQ-BSA,使其荧光量子效率从64.71%上升至85.84%。为制备高效的白光薄膜,利用桶状分子羟丙基-β-环糊精(hydroxypropyl-β-cyclodextrin,HP-β-CD)对6-AIQ-BSA实施了超分子包覆,以降低高浓度下荧光猝灭现象。实验表明,将6-AIQ-BSA@HP-β-CD与橙光染料DAST@HP-β-CD以1.7∶1比例混合可以实现白光发射,其CIE色坐标为(0.3324,0.3284)。该混合物薄膜具有白光性好,轻量和柔软等特点,在柔性发光器件中有着广阔的应用潜力。

β-环糊精对两亲聚合物黏度与分子量测定的影响

为探究β-环糊精(β-CD)的包合作用对两亲聚合物(丙烯酰胺、丙烯酸、十六烷基烯丙基氯化铵三元共聚物APC_(16))黏度及黏均分子量的影响,通过流变仪研究了β-CD包合APC_(16)溶液的黏度变化规律及影响因素,采用乌氏黏度计测定了APC_(16)包合体系的特性黏数,进而准确计算出无分子间相互作用下APC_(16)的黏均分子量。结果表明,在45℃、矿化度为3×10^(4)mg/L的条件下,β-CD与APC_(16)物质的量比为1∶2时,APC_(16)溶液的临界缔合浓度升至5300 mg/L;β-CD与APC_(16)物质的量比为1∶1完全包合时,APC_(16)溶液的临界缔合行为消失。在完全包合比下,温度在25~90℃变化时,包合体系的黏流活化能小于APC_(16)溶液的黏流活化能。随NaCl浓度的增加,包合体系的黏度下降更加平缓,包合强度增强。据此,可以应用β-CD包合作用消除疏水缔合来测定两亲聚合物的黏均分子量。单一APC_(16)的黏均分子量为537×10^(4)Da、部分水解聚丙烯酰胺(HPAM)的黏均分子量为1292×104Da。当β-CD与APC_(16)物质的量比为1∶1、2∶1时,APC_(16)的黏均分子量分别为341×10^(4)、358×10^(4)Da。当β-CD与HPAM物质的量比为1∶1和2∶1时,HPAM的黏均分子量分别为1223×10^(4)、1272×10^(4)Da。HPAM的黏均分子量在包合前后的测定结果一致,证实β-CD包合法测定两亲聚合物分子量的有效性,为两亲聚合物疏水作用对黏度贡献和分子量测定提供新方法。

β-环糊精聚合物在水体污染物吸附中的应用

工业的快速发展使水体污染问题日趋严重且威胁人类健康。因此,针对水体污染物的去除治理迫在眉睫。高性能吸附剂的成功制备使吸附技术成为最具应用前景的技术之一。β-环糊精聚合物既保留了β-环糊精结构中具有吸附位点的羟基基团和空腔结构,又解决了β-环糊精单体在水体中易溶解及稳定性较差的问题,在去除水体污染物方面备受关注。然而,β-环糊精聚合物会因不同的制备方法而具有不同的吸附性能。该文详细阐述了交联型、星型、线型、固载型4种β-环糊精聚合物的结构特点及制备方法,综述了近年来对水体污染物中重金属、染料、内分泌干扰物等污染物的吸附机理和应用,并对其未来发展进行了展望。