Fe_(3)O_(4)@壳聚糖磁球的制备及对刚果红的吸附性能研究

以Fe^(3+)、Fe^(2+)以及壳聚糖为主要原料,制备Fe_(3)O_(4)@壳聚糖磁球。选择染料刚果红进行静态吸附,考察吸附条件对Fe_(3)O_(4)@壳聚糖吸附量的影响。结果表明,pH为4时具有较好的吸附效果,吸附时间为120 min时Fe_(3)O_(4)@壳聚糖的吸附达到平衡。Lagergren动力学模拟和韦伯-莫里斯粒子内扩散模拟结果显示以化学吸附为主,由吸附剂表面吸附和孔道内缓慢扩散共同控制。

基于Nano-Fe_(3)O_(4)/Nafion修饰玻碳电极用于海水基的铅离子传感器研究

海水中的铅离子具有富集性会危害人类健康,因此,对铅离子进行高灵敏度和高选择性的检测非常重要。通过滴涂法实现Nano-Fe_(3)O_(4)/Nafion修饰玻碳电极,采用差分脉冲溶出伏安法(Differential pulse stripping voltammety,DPSV)测定Pb^(2+)。当实验条件为最优时,在Pb^(2+)浓度为5~80μg·L^(-1)内呈现良好的线性关系,检出限为0.5μg·L^(-1),灵敏度为0.699μA·μg^(-1)。将其用于海水中Pb^(2+)的测定,回收率介于90.2%~99.3%,为测定海水基Pb^(2+)构建了一种操作简单、响应快速和灵敏度高的传感器。

Treatment of Agate Dyeing Wastewater Using an Immobilized Gel Mixture with Nano-Fe_(3)O_(4) Sulfate-Reducing Bacteria

To solve the problems of high Cr^(6+),Cr^(3+),SO_(4)^(2-)and H+concentrations,pollution and processing costs associated with agate dyeing industrial drainage,we prepared an immobilized gel mixture for the treatment of such drainage on the basis of microbial immobilization technology.The immobilized gel mixture was composed of sulfate-reducing bacteria(SRB),corn cob,and nano-Fe_(3)O_(4)(nFe_(3)O_(4)).We used a single-factor experiment to determine the optimal dose of each matrix component.We analyzed the mechanism underlying the treatment of agate dyeing wastewater with an immobilized gel mixture by X-ray diffraction and scanning electron microscopy detection.The results of the single-factor test showed that the best treatment was obtained under the following conditions for each matrix component:SRB mass percentage of 30%,nFe_(3)O_(4) dose of 3%,and corn cob mesh size of 100 and dose of 3%.On this basis,we conducted an L9(34)orthogonal experiment to determine the optimal proportion of each matrix component.The results showed that the best treatment was obtained when the gel mixture met the following conditions:SRB mass percentage of 40%,nFe_(3)O_(4) dose of 4%,and corn cob dose of 1%and mesh size of 100.Accordingly,the SO_(4)^(2-),Cr^(6+)and Cr^(3+)removal rates from the agate dyeing drainage were 70.54%,84.75%,and 73.80%,respectively;the total Fe and chemical oxygen demand releases were 1.086 mg·L^(-1)and 1104 mg·L^(-1),respectively;and the pH was 6.27.The gel mixture had the best treatment effect on agate dyeing wastewater under this composition ratio.

Fe_(3)O_(4) NP强化高浓度厨余有机废水厌氧降解的探究

为探究纳米四氧化三铁(Fe_(3)O_(4) NP)对高浓度厨余废水有机物降解效能的影响,构建了上流式厌氧污泥床反应器(UASB),在中温条件下分析了不同有机负荷影响下Fe_(3)O_(4) NP对厨余垃圾废水处理效能的影响。结果表明,Fe_(3)O_(4) NP促进了有机物降解,并提高了甲烷产率,促进了挥发性脂肪酸(VFA)的转化。在OLR为8.0 kg/(m3·d)时,投加Fe_(3)O_(4) NP组别,COD去除效率高达90.2%,甲烷产率为224.3 mL/g,高于未投加Fe_(3)O_(4) NP组别,而VFA的最大积累量仅为90.2 mg/L。此外,Fe_(3)O_(4) NP能影响厌氧污泥性质,提高污泥粒径,促进胞外聚合物的产生,蛋白质(PN)和多糖(PS)最大质量含量分别为116.2 mg/g和124.3 mg/g,ω(PN)/ω(PS)升高至0.93。Fe_(3)O_(4) NP促进了UASB内污泥絮凝与颗粒化。研究结果为处理高浓度厨余垃圾废水提供了一定数据支撑与理论依据。

CS@Fe_(3)O_(4)结合微波或远红外解冻对真鲷品质特性的影响

分别利用微波解冻(MT)、远红外解冻(FT)、壳聚糖磁性纳米微波解冻(CMT)和壳聚糖磁性纳米远红外解冻(CFT)对真鲷背部肌肉进行解冻处理。采用DSC和动态流变学对其热稳定性和黏弹性进行研究。提取鱼块肌肉中的肌原纤维蛋白测定拉曼光谱、紫外吸收光谱、固有荧光光谱和粒径,对蛋白质的空间构象和聚集度进行分析。利用低场核磁共振技术和扫描电镜测定其水分分布和微观结构。结果表明,CMT处理的汁液流失率最低,能有效保持鱼肉硬度、弹性以及黏聚性,能够形成相对较理想、稳定的网络结构。同时其肌原纤维蛋白溶液结构较稳定。CFT和CMT两种处理均保留了紧密有序的微观结构,且总体上比FT和MT处理保留了更稳定的三级结构,减缓蛋白质氧化的同时保持较强的系统稳定性。因此,在解冻过程中,CMT和CFT处理可用于改善蛋白质理化性质。

石墨烯/Fe_(3)O_(4)/壳聚糖修饰电极对镉离子的检测研究

镉污染问题严重威胁人类生命健康,因此对镉离子(Cd^(2+))的快速且高灵敏度检测至关重要。本文通过滴涂法制备了石墨烯/四氧化三铁/壳聚糖/复合膜修饰玻碳电极(GR/Fe_(3)O_(4)/CS/GCE),采用方波溶出伏安法探讨此修饰电极对Cd^(2+)的溶出伏安响应,优化了电解质、pH值、沉积电位、沉积时间等条件。在最佳条件下,Cd^(2+)的响应峰电流与浓度在4~200μg/L范围内呈现良好的线性关系,相关系数为0.993,Cd^(2+)的检出限为0.89μg/L,GR/Fe_(3)O_(4)/CS/GCE具有良好的重现性和灵敏度。将其应用于近岸海水的Cd^(2+)检测,回收率介于99.3%~106.7%,为水质Cd^(2+)检测提供了新的选择。

荧光壳聚糖纤维的制备及性能探讨

以乙酸为溶剂,壳聚糖为原料,铝酸锶掺杂铕和镝(SrAl_(2)O_(4)∶Eu^(2+), Dy^(3+))为荧光分子,NaOH/无水乙醇混合溶液为凝固浴,通过湿法纺丝制备了荧光壳聚糖纤维。研究了壳聚糖浓度、SrAl_(2)O_(4)∶Eu^(2+), Dy^(3+)含量、凝固浴比例纺丝参数变化对荧光壳聚糖纤维的表面形貌、力学性能、荧光性及耐环境稳定性的影响。结果表明,在牵伸速度为28 mm/s,牵伸倍数为1.2的室温条件下,控制壳聚糖浓度为3.5 wt%、SrAl_(2)O_(4)∶Eu^(2+), Dy^(3+)含量为3%、凝固浴(35 wt%NaOH溶液∶无水乙醇)体积比为5∶5,制备的荧光壳聚糖纤维力学性能优,荧光强度高,耐环境稳定性好。

壳聚糖负载纳米四氧化三铁快速吸附检测饮料中的胭脂红

试验通过制备壳聚糖负载纳米Fe_(3)O_(4),将其作为吸附剂对饮料中胭脂红进行吸附和解吸附,采用紫外-可见分光光度法检测饮料中胭脂红含量.实验结果表明,中粘度壳聚糖负载20nmFe_(3)O_(4)对胭脂红吸附率达98.8%.在最大吸收波长512nm,pH为3及温度为30℃的条件下,使用20mg吸附剂吸附20min,以1mol/L盐酸溶液涡旋5min进行解吸附,胭脂红吸附及解吸附效果最优.将东鹏特饮维生素功能饮料和红牛安奈吉饮料作为样品进行检测,胭脂红含量分别为1.09mg/L和0.70mg/L,添加量均在国家标准范围内.同时进行饮料中5、10、15mg/L3个胭脂红含量的添加回收试验,平均回收率为70.5%~74.4%,相对标准偏差为2.0%~4.1%,符合分析要求.傅里叶红外光谱和X射线衍射分析表明壳聚糖和Fe_(3)O_(4)复合成功,扫描电镜下观察中粘度壳聚糖负载20nmFe_(3)O_(4)材料呈现不规则形状,表面比较粗糙,有孔洞和球形颗粒.

Synthesis of chitosan-based grafting magnetic flocculants for flocculation of kaolin suspensions

A series of novel chitosan-based magnetic flocculants FS@CTS-P(AM-DMC)was prepared by molecular structure control.The characterization results showed that FS@CTS-P(AM-DMC)had a uniform size of about 21.46 nm,featuring a typical core-shell structure,and the average coating layer thickness of CTS-P(AM-DMC)was about 5.03 nm.FS@CTS-P(AM-DMC)exhibited excellent flocculation performance for kaolin suspension,achieved 92.54% turbidity removal efficiency under dosage of 150 mg/L,pH 7.0,even at high turbidity(2000 NTU)with a removal efficiency of 96.96%.The flocculation mechanism was revealed to be dominated by charge neutralization under acidic and neutral conditions,while adsorption and bridging effects play an important role in alkaline environments.The properties of magnetic aggregates during flocculation,breakage,and regeneration were studied at different pH levels and dosages.In the process of magnetophoretic,magnetic particles collide and adsorb with kaolin particles continuously due to magnetic and electrostatic attraction,transform into magnetic chain clusters,and then further form three-dimensional network magnetic aggregates that can capture free kaolin particles and other chain clusters.Particle image velocimetry confirmed the formation of eddy current of magnetic flocs and experienced three stages:acceleration,stabilization,and deceleration.

基于壳聚糖的磁性吸附水凝胶微球的制备与表征

通过原位共沉淀法制备了含有Fe_(3)O_(4)纳米粒子的埃洛石纳米管(HNTs)/壳聚糖(CS)磁性复合水凝胶微球,并对产物的形貌和结构进行了表征。引入纳米Fe_(3)O_(4)后,Fe_(3)O_(4)@HNTs/CS微球成型快且球形度好,在溶液中可通过磁场快速分离。扫描电子显微镜表明Fe_(3)O_(4)@HNTs/CS微球具有三维多孔结构。以亚甲基蓝(MB)、刚果红(CR)为模型染料,研究了Fe_(3)O_(4)@HNTs/CS对带有不同电荷的离子型染料的吸附性能。结果表明Fe_(3)O_(4)@HNTs/CS可吸附MB、CR染料分子。Fe_(3)O_(4)@HNTs/CS对CR染料的脱色率可达98%;当HNTs含量为CS质量的40%时,MB脱色率是不含HNTs微球的12倍。研究结果表明:吸附机理主要基于微球和染料分子的静电相互作用;Fe_(3)O_(4)@HNTs/CS内部电荷分布独特,能吸附阴离子染料和阳离子染料,磁性则使其更易分离回收。

基于磁性壳聚糖复合材料对耐高温酶的固定化研究

生物催化剂酶对环境较为敏感,在各种物理、化学和生物因素中,高温对酶的失活效应尤为显著。构建耐热的特异性基质,对酶进行固定化,既有利于提高酶在高温条件下的稳定性,又可实现催化剂的重复使用,极大提升了酶的工业应用价值。以壳聚糖和海藻酸钠为原料,利用碱性溶液冷冻条件下的溶解及氢键重排的方法,制备出力学性质优良且耐高温的壳聚糖复合水凝胶,进一步采用化学交联法制备固定化耐高温酶。通过单因素实验确定最优的固定耐高温酶的条件:壳聚糖质量分数5%,海藻酸钠质量分数0.5%,Zn_(S)O_(4)溶液质量浓度20 g/L,交联剂乙二醇二缩水甘油醚(EGDE)体积分数0.8%。与游离酶相比,固定化酶的抗酸碱能力和热稳定性提高,最适温度升高5℃(从90℃升高到95℃),并在较宽pH和温度范围内也能保持较高酶活。在80℃下,重复反应8次以后,相对酶活仍能保持在75%以上。利用热重分析(TGA)研究了此类水凝胶中水的状态和热稳定性。建立的固定化酶制备方法,有助于解决工业酶高温情况下易失活,且难以连续使用的问题。