壳聚糖和抗坏血酸复合处理提高台湾青枣采后保鲜效果

为了延长台湾青枣(Ziziphus mauritiana Lam.)的采后保鲜时间,基于抗坏血酸(ascorbic acid,As A)可提高果实抗氧化能力,壳聚糖涂膜处理能防止果实失水和微生物侵染,该文探讨抗坏血酸、壳聚糖涂膜及抗坏血酸和壳聚糖复合处理对台湾青枣(Ziziphus mauritiana Lam.)采后保鲜效果的影响.果实采收后当天,分别用30.0mmol/L抗坏血酸浸泡处理、8g/L壳聚糖涂膜以及30.0mmol/L抗坏血酸浸泡后并用8g/L壳聚糖涂膜复合处理,以双蒸水浸泡处理为对照,处理结束后,置于(25±1)℃和90%~95%相对湿度下贮藏,定期测定果实相关生理参数,扫描电镜观察果皮果实组织结构.结果表明,与对照相比,抗坏血酸或壳聚糖单独处理虽然对台湾青枣保鲜有一定效果,但复合处理后保鲜效果更好.表现为显著减少果实失水率和相对电导率(P<0.05),抑制果皮叶绿素降解及果实果胶酶和多聚半乳糖醛酸酶活性增加,降低原果胶分解成可溶性果胶的速率(P<0.05),使果实硬度和细胞完整性得以维持;延缓果实超氧化物歧化酶(superoxide dismutase,SOD)和过氧化氢酶(catalase,CAT)活性下降,降低膜脂氧化速率,果实过氧化氢和膜脂过氧化产物丙二醛含量显著下降(P<0.05);维持果实较高的可溶性固形物(total soluble solids,SS)、可溶性总糖(total soluble sugar,TSS)、可滴定酸(titratable acidity,TA)、谷胱甘肽(glutathione,GSH)及抗坏血酸含量.研究结果说明,抗坏血酸和壳聚糖复合处理可提高台湾青枣贮藏过程中的抗氧化能力,降低氧化伤害;降低果实失水率,减缓果皮叶绿素降解速率,延缓细胞降解和软化速率,维持果实细胞完整性,降低果实的腐烂率,从而达到延长采后果实保鲜的效果.     

低温等离子体制备CEO-SBA-15/马铃薯淀粉膜性能优化及结构表征

为提高CEO-SBA-15在马铃薯淀粉膜中的分散性以增强复合膜的物理性能,通过低温等离子体处理制备改性的CEO-SBA-15/马铃薯淀粉膜,以等离子体处理时间,马铃薯淀粉、甘油、CEO-SBA-15用量为考察因素,对复合膜的性能进行正交试验优化,对其进行微观结构表征,以及对复合膜进行物理、透气以及光学试验。结果表明,等离子体处理使CEO-SBA-15较均匀地分散在马铃薯淀粉膜中,且适合等离子体合成复合膜的最佳因素配比为等离子体处理马铃薯淀粉溶液时间6 min,马铃薯淀粉用量5 g/100 mL、甘油用量1.5 g/100 mL、CEO-SBA-15用量0.5 g/100 mL。X-射线衍射光谱与傅里叶变换红外光谱分析证实等离子体处理淀粉改性使CEO-SBA-15与马铃薯淀粉分子间形成较强的氢键;紫外光谱分析表明等离子体处理的复合膜具有较好的抗紫外光作用以及较好的透光率。此外,等离子体合成的复合膜包装物理性能得到增强,其透氧率、透水率、溶胀度较未改性处理的复合膜分别降低了47.95%、94.56%、83.01%,拉伸强度提高了126.09%,可较好地保护食品内容物不受外界因素干扰以及机械损伤。     

薰衣草精油改善壳聚糖基食品包装膜的应用品质

为改善现有壳聚糖基食品包装膜的机械性能和防水性能,该文使用浇铸-蒸发-碱浸法制备了添加薰衣草精油的壳聚糖基复合膜。采用红外光谱、X射线衍射对膜进行了表征,并分析了薰衣草精油添加量对膜的厚度、机械性质、可挥发物质量分数、接触角、水溶性、溶胀性等性质的影响。结果表明:薰衣草精油成分占据了壳聚糖骨架中的部分官能团的位置,降低了壳聚糖分子中共价键的振动强度,同时膜中可以与水形成亲水键的自由H基团减少,膜的含水量降低。薰衣草精油的添加,增大了膜中壳聚糖乙酸盐的含量。膜的厚度和薰衣草精油添加量并不成线性关系,所得膜的厚度范围为(20.60±0.34)~(23.35±0.65)μm。随着薰衣草精油添加量的增加,膜的拉伸强度和断裂伸长率的变化趋势基本相同。当薰衣草精油添加量为8%时,拉伸强度和断裂伸长率都达到最大值,分别为(123.44±0.33)MPa和3.74%±0.02%。与壳聚糖膜相比,薰衣草精油/壳聚糖复合膜的的可挥发物质量分数较低,薰衣草精油添加量为2%时,可挥发物质量分数最低,为8.98%±0.05%。薰衣草精油的添加,增大了膜的溶解性,但膜在水中的溶解度均不大于(1.21±0.04)mg/100 g,属于难溶物质范畴。膜的接触角和溶胀指数都随薰衣草精油添加量的增加而减小,即当薰衣草精油添加量为10%时,膜的接触角和溶胀指数都达到最大值,分别为80.73°±0.32°和0.62±0.01。薰衣草精油的加入改善了由浇铸-蒸发-碱浸法制备的CS基复合膜的机械性质和物理性质。研究结果为薰衣草精油/壳聚糖复合膜的生产和应用提供了技术依据。     

壳聚糖-胰蛋白酶抑制剂复合可食性膜的制备及抗黄曲霉活性

为探索新型生物膜材料的制备方法及抗黄曲霉活性,以壳聚糖和大豆胰蛋白酶抑制剂(TI)提取物为原料,甘油为增塑剂,利用溶液共混流延法制备壳聚糖-TI-甘油复合可食性膜,测试其厚度、表观结构、力学性质、透光率、水蒸气透过率及抗黄曲霉侵染活性。结果表明,当壳聚糖浓度为18mg/mL、TI浓度2mg/mL、甘油浓度12mg/mL和干燥温度45℃时,制备复合膜具有优良抗黄曲霉活性,且综合理化性能最佳。制备壳聚糖-TI-甘油复合膜液涂膜于花生上,接种黄曲霉培养后发现,复合膜对于黄曲霉侵染具有较强的抵抗和抑制作用。     

壳聚糖-纳米氧化锌复合涂膜对甜樱桃采后生理和贮藏品质的影响

为研究壳聚糖-纳米氧化锌复合涂膜对甜樱桃贮藏期生理及品质的影响,以新鲜大连甜樱桃为材料,研究4℃条件下3种壳聚糖-纳米氧化锌复合涂膜处理(0.1%纳米氧化锌+0.2%壳聚糖、0.1%纳米氧化锌+0.5%壳聚糖、0.1%纳米氧化锌+0.8%壳聚糖)对甜樱桃的腐烂率、失重率、可溶性固形物、可滴定酸、维生素C(Vc)含量、呼吸强度、过氧化物酶(POD)活性、过氧化氢酶(CAT)活性、超氧化物歧化酶(SOD)活性和丙二醛(MDA)含量变化的影响。结果表明,0.1%纳米氧化锌+0.8%壳聚糖复配的壳聚糖-纳米氧化锌涂膜处理对甜樱桃果实的保鲜效果优于壳聚糖单膜处理(1.0%壳聚糖)。壳聚糖-纳米氧化锌复合涂膜处理能够使可溶性固形物、可滴定酸、Vc含量维持在较高水平,降低果实的腐烂率、失重率,有效延缓呼吸强度、MDA含量的上升及CAT活性的下降,抑制POD和SOD活性。在维持甜樱桃贮藏品质和延缓衰老方面,以0.1%纳米氧化锌+0.8%壳聚糖复配的壳聚糖-纳米氧化锌复合膜处理的保鲜效果最好。本研究结果为改性壳聚糖涂膜在甜樱桃贮藏保鲜中的应用提供了理论依据。     

复配型壳聚糖涂膜对冷藏银鲳的保鲜效果

为延长银鲳货架期,选取壳聚糖、海藻酸钠、明胶和乳酸链球菌素(Nisin)进行单一生物保鲜剂试验,选出其中3种效果较好的保鲜剂,通过正交试验确定复合保鲜剂的最佳配比。结果表明,复合保鲜剂中3种成分对银鲳的保鲜效果影响不一,其中壳聚糖有极显著影响,海藻酸钠有显著影响,而Nisin的影响不显著;冷藏银鲳复合保鲜剂的最佳复配比为壳聚糖5 g·L-1、海藻酸钠7 g·L-1、Nisin 0.3 g·L-1,此条件下银鲳的货架期延长至13 d,比对照组延长了约7 d。该复配型壳聚糖涂膜液对冷藏银鲳具有较好的保鲜效果,为银鲳保鲜及其品质控制提供了一定的科学依据。     

绿茶多酚提高壳聚糖包装膜的抗氧化性能

为了开发新型的抗氧化活性包装材料,该文以壳聚糖/绿茶多酚构成的复合膜为研究对象,比较分析了甘油和聚乙二醇对壳聚糖膜物理、机械、抗氧化和结构特性的影响。结果表明：未加入绿茶多酚前,壳聚糖甘油膜有着较低的水蒸汽透过系数和膨胀程度,其水蒸汽透过系数为8.84×10-11g/(m·s·Pa)。然而,聚乙二醇膜的抗拉强度和穿透力均高于甘油形成的膜。X射线衍射分析（XRD）表明应用质量分数40%的增塑剂导致11.7°和17.9°出现2个结晶峰,分别对应壳聚糖的水合结晶和无水结晶。加入绿茶多酚后,壳聚糖复合膜的抗氧化能力显著提高,1,1-二苯基-2-苦基肼（DPPH）自由基清除能力在5 min内达到83.9%。加入绿茶多酚显著降低了膜溶液的表观黏度,增加了膜的厚度、颜色和阻水性。从2种增塑剂的对比效果看,绿茶多酚对于甘油膜的机械性能影响较大,其断裂伸长率从42.02%急剧下降到9.19%,并且使膜的结晶结构从水合状态转变为非晶状态。但绿茶多酚对聚乙二醇膜的水蒸汽透过系数、膨胀程度和颜色影响较大。壳聚糖复合膜性能的这种差异与增塑剂中所含羟基的数量以及与绿茶多酚的配比有关。研究结果为绿茶多酚复合包装膜在实际中的应用提供了理论依据。     

纳米氧化锌/葡萄皮红改性大豆分离蛋白膜的制备与性能研究

为改善大豆分离蛋白膜的性能,将纳米氧化锌(Zno Nanoparticles,Zno NPs)和葡萄皮红(Grape-Skin Red,GSR)加入大豆分离蛋白(Sov ProteinIsolate,SPI)中制备SPI/ZnO NPs/GSR复合膜,对复合膜的性能进行表征。结果表明当葡萄皮红、ZnO NPs和大豆分离蛋白以1:2:25的质量比制备复合膜时,相对于SPI/ZnO NPs膜,葡萄皮红可提高ZnO NPs和大豆分离蛋白的相容性,改善ZnO NPs在SPI膜中的分散性,并与ZnO NPs发挥协同作用提高SPI膜的机械性能、耐水性能和热稳定性(P0.05)。SPI/ZnO NPs/GSR复合膜相比较于SPI膜,拉伸强度从1.37 MPa升至3.28 MPa,熔点从194℃升至231℃,含水率从34.41%降至25.37%,水蒸气透过系数从5.57×10~(-12) (g·cm)/(cm~2·s·Pa)降至4.74×10~(-12) (g·cm)/(cm~2·s·Pa)。此外,复合膜对金黄色葡萄球菌和大肠杆菌表现出优异的抗菌性能,抑菌圈直径随着活性成分的添加呈上升趋势(大肠杆菌:SPI 膜无,SPI/ZnO NPs 膜 2.29 cm,SPI/ZnO NPs/GSR 膜 2.36 cm;金黄色葡萄球菌:SPI 膜无,SPI/ZnO NPs 膜 2.32 cm,SPI/ZnO NPs/GSR膜2.42 cm),在活性包装应用中具有极大潜力。研究结果为大豆分离蛋白基薄膜的生产应用提供参考。     

蜡样芽孢杆菌及其生物被膜对有机酸及乙醇的抗性比较

为比较蜡样芽孢杆菌及其生物被膜对环境压力的抗性,该文主要研究了4种有机酸（乙酸、柠檬酸、乳酸和苹果酸）和乙醇对蜡样芽孢杆菌及其生物被膜存活率的影响。结果表明：生物被膜态蜡样芽孢杆菌对乙酸的抗性高于浮游态菌。扫描电镜结果显示,经乙酸处理后,浮游态蜡样芽孢杆菌的细胞表面严重受损,而生物被膜态菌的表面形态未发生明显变化。在柠檬酸、乳酸、苹果酸和乙醇存在的条件下,生物被膜态蜡样芽孢杆菌比浮游态菌表现出更强的压力抗性,特别是在高浓度（有机酸16%～20%,乙醇50%～60%）的情况下,该现象尤为显著。因此,在食品工业中控制被膜态蜡样芽孢杆菌对预防和阻止食品腐败非常重要。该研究结果为实际生产中有效控制蜡样芽孢杆菌及其生物被膜的形成提供参考。     

壳聚糖活性污泥复合吸附剂在含铬废水处理中的应用

为了解壳聚糖活性污泥在废水处理中的吸附性能,提高其吸附重金属离子的应用能力,采用壳聚糖包埋固定活性污泥,制备了壳聚糖活性污泥复合吸附剂,考察了发泡剂量、固化液浓度、交联剂浓度对吸附能力的影响。结果表明:不同固化液浓度、发泡剂量、交联剂浓度对壳聚糖活性污泥在含铬废水处理中的吸附能力均不同。其中2.0g/L氢氧化钠(NaOH)固化液、质量百分比为10%的NH_4HCO_3为发泡剂、体积分数为2.5%的环氧氯丙烷(ECH)作交联剂处理Cr~(6+)浓度为10mg/L的铬废水时,效果最佳。该复合吸附剂的制备研究一方面为污泥的资源化利用、变废为宝探索新的途径,另一方面也为污水的处理提供新的方法。     

天然花青素提取物与壳聚糖明胶复合膜的制备和表征

为了开发天然的抗氧化活性包装材料,以紫甘蓝、黑米、玫瑰、蓝莓为原料制备天然花青素提取物与壳聚糖明胶的复合膜,比较分析了不同天然花青素提取物对复合膜的物理、机械、抗氧化活性及形貌结构的影响。结果表明：天然花青素提取物的加入,增加了膜的厚度,显著（P<0.05）影响膜的含水率、水溶性及外观形貌。壳聚糖明胶复合膜的水蒸汽透过率（water vapor permeability,WVP）为10.69×10-11 g/(m·s·Pa)。玫瑰花青素提取物的加入使得WVP值降低,而其他花青素提取物的加入使得WVP值增大。玫瑰复合膜的拉伸强度最大,达到27.03 MPa,断裂伸长率最小,黑米花青素提取物可增加复合膜的延展性,断裂伸长率最大为57.67%。傅里叶红外光谱表明天然花青素提取物的羟基基团与壳聚糖的氨基基团产生相互作用。扫描电镜结果表明花青素提取物影响微观结构,而且生物相容性较好。加入天然花青素提取物后,复合膜抗氧化活性均显著（P<0.05）提高,且玫瑰复合膜有着较高的抗氧化活性,1,1-二苯基-2-苦基肼（DPPH）自由基清除能力达到95.47%。结果表明：玫瑰花青素提取物更有利于开发阻湿性能好,水溶性低,抗拉伸和抗氧化活性高的包装材料,具有良好的应用前景。     

Incorporation of a high concentration of mineral or vitamin into chitosan-based films

Mineral or vitamin E was incorporated into chitosan-based films: 10-200% (w/w chitosan) Gluconal Cal (GC), a mixture of calcium gluconate and lactate; 5-20% zinc lactate (ZL); and 5-20% alpha-tocopheryl acetate (VE) with acetylated monoglyceride (AM). The functionality of film-forming solutions and dried films was analyzed with standard procedures, and mathematical equations were developed to coordinate selected film functionality with the type and concentration of incorporated mineral or vitamin E. GC incorporation significantly increased pH and decreased viscosity of film-forming solutions, but not the addition of ZL or VE. The water barrier property of the films was improved by increasing the concentration of mineral or vitamin E in the film matrix. The tensile strength of the films was more significantly affected by GC or VE addition than film elongation, puncture strength, and puncture deformation. While a major endothermic peak around 200 degrees C was observed in DSC thermograms of chitosan-based films, only 200% GC incorporation altered this endothermic peak. This study demonstrated the capability of chitosan-based film matrix to carry a high concentration of mineral or vitamin E. Such films may be used for wrapping or coating to enhance the nutritional value of foods.     

辉光放电低温等离子体改性大豆分离蛋白可食膜工艺优化

为制备具有良好性能的可食膜,该文采用大豆分离蛋白(soy protein isolate,SPI)为成膜基材,利用辉光放电等离子体作用对可食膜进行改性,并研究等离子体处理时间、丙三醇质量浓度、pH值对可食膜水蒸气透过系数(water vapor permeability,WVP)、氧气透过率(oxygen permeability,OP)抗拉强度(tensile strength,TS)、断裂伸长率(elongation,E)的影响。利用响应面法对工艺参数进行优化,得到各因素对可食膜性能影响的大小依次为pH值丙三醇质量浓度等离子体处理时间。试验结果表明:丙三醇质量浓度为0.02 g/mL、等离子体处理时间为11.31 min、pH值为11,可食膜性能综合得分S为0.90。此时可食膜的断裂伸长率为273.77%、抗张强度为3.46 MPa、水蒸气透过系数为1.81×10~(-12) g/(cm·s·Pa)、氧气透过率为1.43×10~(-5) cm~3/(m~2·d·Pa)。通过原子力显微镜和接触角测量仪对可食膜表面进行观察,结果表明:经低温等离子体处理的可食膜表面物理结构发生改变,粗糙度增加,水接触角变小,有效提高大豆分离蛋白膜的机械性能和表面润湿性。     

Production and characterization of films from cotton stalk xylan

Composite film production based on cotton stalk xylan was studied, and the mechanical and physical properties of the films formed were investigated. Xylan and lignin were separated from cellulose by alkali extraction and, then, lignin was removed using ethanol washing. Self-supporting continuous films could not be produced using pure cotton stalk xylan. However, film formation was achieved using 8-14% (w/w) xylan without complete removal of lignin during xylan isolation. Keeping about 1% lignin in xylan (w/w) was determined to be sufficient for film formation. Films were produced by casting the film-forming solutions, followed by solvent evaporation in a temperature (20 degrees C) and relative humidity (40%) controlled environment. The elastic modulus and hypothetical coating strength of the films obtained by using 8% xylan were significantly different from the ones containing 10-14% xylan. The water vapor transfer rates (WVTR) decreased with increasing xylan concentration, which made the films thicker. The glycerol addition as an additional plasticizer resulting in more stretchable films having higher WVTR and lower water solubility values. As a result, film production was successfully achieved from xylan, which was extracted from an agricultural waste (cotton stalk), and the film-forming effect of lignin on pure xylan has been demonstrated.     

Mechanical, barrier, and antimicrobial properties of apple puree edible films containing plant essential oils

Edible films, as carriers of antimicrobial compounds, constitute an approach for incorporating plant essential oils (EOs) onto fresh-cut fruit surfaces. The effect against Escherichia coli O157:H7 of oregano, cinnamon, and lemongrass oils in apple puree film-forming solution (APFFS) and in an edible film made from the apple puree solution (APEF) was investigated along with the mechanical and physical properties of the films. Bactericidal activities of APFFS, expressed as BA50 values (BA50 values are defined as the percentage of antimicrobial that killed 50% of the bacteria under the test conditions) ranged from 0.019% for oregano oil to 0.094% for cinnamon oil. Oregano oil in the apple puree and in the film was highly effective against E. coli O157:H7. The data show that (a) the order of antimicrobial activities was oregano oil > lemongrass oil > cinnamon oil and (b) addition of the essential oils into film-forming solution decreased water vapor permeability and increased oxygen permeability, but did not significantly alter the tensile properties of the films. These results show that plant-derived essential oils can be used to prepare apple-based antimicrobial edible films for various food applications.     

K_3解磷菌的解磷机理及其对缓冲容量的响应

以对磷酸三钙具有高效溶解作用且对玉米苗生长有促生效果的假单胞菌K3为模式菌株,采用NBRIP液体培养基研究了解磷菌K3的解磷机制及缓冲容量对其解磷量的影响。结果表明,解磷菌K3液体摇瓶培养7 d后,培养液中水溶性磷从6.54μg/mL增加至655.23μg/mL,pH从7.00降至3.99。高效液相色谱测定发现,K3菌液中的主要代谢产物为苹果酸、乳酸和草酸,浓度分别为47.39 mmol/L、25.67 mmol/L和1.89 mmol/L。人工模拟K3菌株产生的有机酸及调节培养基不同pH值对磷酸三钙溶解度影响的试验表明,有机酸的螯合作用是解磷细菌K3菌株解磷的主要机理,而调节培养基pH对解磷的作用有限。液体摇瓶和土培试验结果显示,土壤缓冲容量对K3解磷菌的解磷效应有显著的抑制作用。     

K3解磷菌的解磷机理及其对缓冲容量的响应

以对磷酸三钙具有高效溶解作用且对玉米苗生长有促生效果的假单胞菌K3为模式菌株,采用NBRIP液体培养基研究了解磷菌K3的解磷机制及缓冲容量对其解磷量的影响。结果表明,解磷菌K3液体摇瓶培养7 d后,培养液中水溶性磷从6.54 μg/mL增加至655.23 μg/mL,pH从7.00降至3.99。高效液相色谱测定发现,K3菌液中的主要代谢产物为苹果酸、乳酸和草酸,浓度分别为47.39 mmol/L、25.67 mmol/L和1.89 mmol/L。人工模拟K3菌株产生的有机酸及调节培养基不同pH值对磷酸三钙溶解度影响的试验表明,有机酸的螯合作用是解磷细菌K3菌株解磷的主要机理,而调节培养基pH对解磷的作用有限。液体摇瓶和土培试验结果显示,土壤缓冲容量对K3解磷菌的解磷效应有显著的抑制作用。     

Solubility, tensile, and color properties of modified soy protein isolate films

Protein solubility (PS) values of different soy protein isolate (SPI) films were determined in water, 0.01 N HCl, 0.01 N NaOH, 4 M urea, and 0.2 M 2-mercaptoethanol. Tensile and color (L, a, and b values) properties of films also were determined. Control films were cast from heated (70 degrees C for 20 min), alkaline (pH 10) aqueous solutions of SPI (5 g/100 mL of water) and glycerin (50% w/w of SPI). Additional films were cast after incorporation of dialdehyde starch (DAS) at 10% w/w of SPI or small amounts of formaldehyde in the film-forming solutions. Also, control film samples were subjected to heat curing (90 degrees C for 24 h), UV radiation (51.8 J/m(2)), or adsorption of formaldehyde vapors. PS of control films was highest (P < 0.05) in 2-mercaptoethanol, confirming the importance of disulfide bonds in SPI film formation. All treatments were effective in reducing (P < 0.05) film PS in all solvents. Both DAS and adsorbed formaldehyde rendered the protein in films practically insoluble in all solvents. Adsorption of formaldehyde vapors and heat curing also substantially increased (P < 0.05) film tensile strength from 8.2 to 15.8 or 14.7 MPa, respectively. However, heat curing decreased (P < 0.05) film elongation at break from 30 to 6%. Most treatments had small but significant (P < 0.05) effects on b color values, with DAS-containing films having the greatest (P < 0. 05) mean b value (most yellowish). Also, DAS-containing, heat-cured, and UV-irradiated films were darker, as evidenced by their lower (P < 0.05) L values, than control films. It was demonstrated that PS of SPI films can be notably modified through chemical or physical treatments prior to or after casting.     

秘鲁鱿鱼皮明胶-壳聚糖复合膜的性能与结构表征

为考察壳聚糖对鱿鱼皮明胶膜的改性效果,将壳聚糖添加到明胶溶液中,考察壳聚糖的添加量对鱿鱼皮明胶复合膜机械性能、水蒸气透过率、透光性及其结构的影响。结果表明,壳聚糖能有效改善鱿鱼皮明胶膜的有关性能指标,当鱿鱼皮明胶溶液与壳聚糖溶液以60∶40(v/v)比例混合,制得复合膜的断裂伸长率相比单一明胶膜下降,但其抗拉伸强度、透光率和水蒸气阻隔能力分别比单一明胶膜提高了652%、11%和48%;差示扫描量热仪、红外及扫描电镜分析结果显示,壳聚糖能与鱿鱼皮明胶相互作用,形成结构致密的均相体系,提高复合膜的热变性温度。综上可知,鱿鱼皮明胶与壳聚糖之间具有良好的相容性,壳聚糖是一种较理想的明胶膜改性材料。本试验结果为鱿鱼皮明胶作为食品保鲜膜的应用提了供依据。     

电场处理改善玉米醇溶蛋白膜理化性质

传统浇铸法制备的玉米醇溶蛋白薄膜表面粗糙,机械性质及耐水性较差。为了改善玉米醇溶蛋白理化性质,在传统浇铸法膜制备过程中引入平行匀强电场(1~5 A/m2)处理蛋白成膜液。经过电场处理后,玉米醇溶蛋白表面光滑、形状完整。试验结果表明:电场处理可改善薄膜力学性质、表面疏水性、水蒸气透过率等性质;随着电流密度的增大,薄膜拉伸强度、断裂伸长率、水蒸气透过率、吸水率以及表面接触角呈现规律性增加或者减小;电场处理下薄膜热特性改变,与未处理组相比变性温度略有提高,最大增幅为19.5℃。当电流密度为4 A/m2时,薄膜理化性质较佳:拉伸强度、断裂伸长率分别为73.09 MPa和9.68%,吸水率降低至14.87%,水蒸气透过率为2.55×10-8 g·m/(m2·h·Pa),静态接触角为62.18°,变性温度提高到118.39℃,热稳定性提高,薄膜表面光滑。电场可诱导成膜液中分子有序性排列,提高薄膜均一性;通过调节电流密度可得到具有一定力学强度和亲/疏水性的薄膜。试验结果为制备具有特定功能性的纯玉米醇溶蛋白薄膜材料提供了理论依据。