化学修饰铋膜电极检测重金属镉

随着我国工业的快速发展，环境污染日益严重，其中重金属已经成为最主要的污染物 之一。重金属具有分布广泛、半衰期长等特点，因而对人们的生产生活危害巨大。镉作为 一种常见的重金属污染物，它能够引发废用性萎缩、肾功能衰竭和感染等疾病，因此对环 境中存在的痕量镉的进行检测显得极为重要。传统的痕量分析方法包括光谱分析法和色谱 分析法，但这两方法所使用的仪器比较笨重，操作过程复杂，因而不适于在线分析。电化 学分析方法因其快速、便携、价格低廉、灵敏度高等特点而受到了人们的广泛关注，其中 较为常用的阳极溶出伏安法已经在镉离子等重金属离子的现场快速高灵敏检测中发挥了 重要作用。然而传统阳极溶出法中使用的汞电极因具有毒性而被许多国家禁止使用，所以 寻找汞电极的替代电极成为近年来的阳极溶出技术的研究热点。铋膜电极因具有类似汞电 极的分析性能且环境友好而受到了广泛重视，特别是各种化学修饰方法使得铋膜电极的性 能得到了显著提高。但是目前铋膜电极仍存在稳定性低、抗干扰能力差等问题，这些不足 严重制约了该类电极在重金属的阳极溶出分析中的应用。本文旨在通过新的化学修饰方法 解决铋膜电极应用中的瓶颈问题，发展具有优异分析性能的化学修饰铋膜电极应用于镉离 子等重金属离子的阳极溶出分析。本文的主要研究内容包括： l）以阳极溶出法测定镉离子为例，研究了化学修饰铋膜电极的响应特性，考察了富 集时间、富集电位、铋离子浓度、离子载体浓度和Nafion 浓度等实验条件对检测灵敏度的 影响。 2）将离子载体引入铋膜电极与Nafion 结合使用，研究了镉离子在该电极上的阳极溶 出响应，并探讨了铜、铅、铟三种金属离子对镉离子检测选择性的影响。将这种改良后的 化学修饰铋膜电极用于实际海水样品的检测，所得结果与ICP-MS 的测量结果基本一致。 3）将四氟硼酸钠引入铋膜电极与离子载体、碳纳米管结合使用，研究了镉离子在该 电极上的阳极溶出响应，考察了铜、铅、铟离子对镉离子测定的影响。 4）考察了电解富集和开路电位富集两种富集方式对电极灵敏度和选择性的影响。 实验表明：通过预富集，在未除氧的溶液中即可得到显著的镉离子溶出电流峰，且背 景噪音低；加入离子载体后，电极对目标金属有良好的选择性，可以在复杂基体条件下测 定重金属离子镉；电解富集条件下电极的的灵敏度较高，而开路电位富集条件下电极的选 择性较好。这种环保的无汞化学修饰电极为海水中重金属污染物的检测提供了新的手段。

新型纳米材料及离子载体化学修饰电极的制备及其在痕量重金属检测中的应用

随着工农业生产的迅速发展，重金属污染问题越来越严重。由于重金属能 够在土壤、水体等环境中不断积累，并且通过食物链而进入人体内蓄积，因此对 人类健康构成潜在的危害。当人体内重金属含量过量时，会导致各种疾病的发生。 所以对痕量重金属污染物进行监测和分析，在食品安全、临床诊断和环境监测等 方面具有重要的现实意义。因此，研究快速、准确、灵敏、方便的检测重金属的 新方法十分必要。 近年来，化学修饰电极由于能够赋予电极新的、特定的功能，在提高电化 学选择性和灵敏度方面有着独特的优越性，因而成为电分析化学领域研究的热 点，并且被广泛应用于重金属元素的测定。但是，由于电极材料的限制，灵敏度 虽然有所改进，却始终很难达到一个新的高度。要提高化学修饰电极对重金属检 测的灵敏度，必须加入一些辅助的方法。 最近，纳米材料在很多分析方法中得到广泛应用，这些材料表现出很多它 们在常规尺度时所没有的独特的性质，如量子尺寸效应、表面效应、小尺寸效应、 量子隧道效应以及介电限域效应等。因此，作为一种新型的电极材料在电化学检 测和分析方面受到人们的日益关注。由于纳米材料本身具有大的比表面积和高的 表面自由能，这种纳米材料修饰电极的灵敏度得到大幅度提高。 离子载体是一类具有一个特定空腔的大环分子，能够从溶液中实现对某一 特定离子的萃取使之进入到有机相中。离子载体是电位型传感器敏感膜中的核心 成分，尽管它具有很高的选择性，但是除了电位分析外，在其它方面的用途却很 少被关注，可能是由于其本身的非导电性能所致。本论文采用纳米材料所特有的 对重金属离子强大的吸附性能和离子载体优良的选择性，制备了纳米材料及离子 载体修饰玻碳电极并用来对实际水样中痕量的重金属进行检测。主要内容包括以 下几个方面： 1.制备新型碳纳米管/铋膜复合修饰电极，研究了重金属钴在电极上的电化 学性能。结果表明，这种新型复合修饰电极的灵敏度得到显著提高，能实现最低 检测限为8´10-11 M的钴的吸附富集溶出。 2.利用羟基磷灰石的强吸附能力和碳纳米管的优异电化学性能，制备了新型 新型纳米材料及离子载体化学修饰电极的制备及其在痕量重金属污染物检测中的应用 II 的碳纳米管-纳米羟基磷灰石的双纳米复合材料，并将其用于金属镉的富集溶出。 结果表明，双纳米复合材料具有比单一材料更优异的性能，更有助于金属镉的富 集溶出。采用碳纳米管-纳米羟基磷灰石的双纳米复合材料修饰电极，能实现最 低检测限为4´10-9 M的镉的富集溶出，灵敏度得到明显提高。 3. 将导电性好、抗氧干扰能力强的铋膜与对重金属具有良好选择性的离子 载体相结合，制备了基于铋膜/离子载体的新型修饰电极，研究了金属铅在其表 面的富集溶出。结果表明，这种新型修饰电极的灵敏度和选择性都大为提高，具 有更高的溶出峰电流和更好的抗干扰能力，可以实现最低检测限为4.4´10-11 M 的铅的富集溶出。 4. 利用羟基磷灰石的强吸附能力和其三维多孔结构、离子载体对重金属离 子优异的选择性以及Nafion 膜良好的离子交换作用和化学稳定性，制备了基于 纳米材料和离子载体的新型化学修饰电极。这种方法不仅有助于提高对金属铅的 选择性和灵敏度，而且大大提高了富集效率。采用该新型化学修饰电极，能够实 现最低检测限为1´10-9 M的铅的富集溶出。

Effect of modified starch on the shelf life of frozen fish Kamaboko with prepared spinach

Fish kamaboko with spinach was prepared by mixing fish kamaboko with spinach prepared with different combinations of ordinary starch (OS) and modified starch (MS), viz., 40:60, 50:50, 60:40, 100%) MS and 100% OS. The products were frozen at -40°C and stored at -20°C, and subjected to biochemical (peroxide value, total titratable acidity, pH and moisture) organoleptic (appearance, taste and colour), microbiological (total plate count) and physical (folding and expressible water) tests at monthly intervals. Among the different combinations tried, it was observed that fish kamaboko with spinach prepared with 50:50 and 60:40 combinations of OS and MS could be stored for six months at-20°C.

Modified water spray chumming system for pole and line fishing of tuna

A water spray chumming system consisting of a 65 x 50 mm centrifugal pump driven by the propulsion engine through a PTO clutch and 'V' pulley power transmission system has been developed for the pole and line fishing of tuna. Water is sprayed through pipe loop system fitted on the edge of the fishing platform of the boat through small holes. The distance of the spray length can be adjusted by controlling the flow of the pump discharge water through a wheel valve.

Study on the sustainability of FPC produced from Kilka (Clupeonella engrauliformis, C. grimmi and C. cultriventris) in two vacuum packaging and modified atmosphere packaging at different environmental factors

Fish protein concentrate (FPC) is a healthy, sustainable and high nutritive product which sanitized produced from fishes in which, protein and other nutrients are more concentrated than in fresh fishes. The aim of this research is to study on the sustainability of FPC produced from Kilka (Clupeonella engrauliformis , C. grimmi and C. cultriventris) in two Vaccum Packaging and Modified Atmosphere Packaging at different environmental factors during six months. In our study the analysis of FPC protein showed 91.2%, lipid: 0.5%, ash: 3.6%, moisture: 2.3%, Total Volatile Nitrogen: 10 ml/100gr and peroxide: 5meq/kg. Amino acids and fatty acids were also determined. Bacteria and Fungi were lower than 1000 colony. Samples are kept in different condition of temperature (5, 20 and 35 degree centigrade), humidity (25, 40 and 90 percent) and light and dark environment in six month. Lipid rate in FPC after 6 months in VP and MAP (60% C02, 30 % N2 and 10% O2), packages was decreased but was not significant (P>0.05). It was also detected that increase temperature lead to more decrease in lipid content. Protein rate of FPC was decreased from 91.2% to 73.6% during six months at 35°C in VP Package and from 91.2% to 69.4% in MAP package. These changes were significant (P<0.05). TVN and PV rate in FPC after 6 months in VP and MAP packages was increased but was significant (P<0.05). Amino acids and fatty acids were also determined. But more changes in MAP packages was detected.

Fabrication of high-Q film bulk acoustic resonator (FBAR) filters withcarbon nanotube (CNT) electrodes

FBAR devices with carbon nanotube (CNT) electrodes have been developed withthe aim of taking advantage of the low density and high acoustic impedance ofthe CNTs compared to other known materials. The influence of the CNTs on thefrequency response of the FBAR devices was studied by comparing two identicalsets of devices, one set comprised FBARs fabricated with chromium/gold bilayerelectrodes, and the second set comprised FBARs fabricated with CNT electrodes.It was found that the CNTs had a significant effect on attenuating travellingwaves at the surface of the FBARs membranes due to their high elastic stiffness.Finite element analysis of the devices fabricated was carried out using COMSOLMultiphysics, and the numerical results confirmed the experimental resultsobtained. © 2010 IEEE.

AlN-based BAW resonators with CNT electrodes for gravimetric biosensing

Solidly mounted resonators (SMRs) with a top carbon nanotubes (CNTs) surface coating that doubles as an electrode and as a sensing layer have been fabricated. The influence of the CNTs on the frequency response of the resonators was studied by direct comparison to identical devices with a top metallic electrode. It was found that the CNTs introduced significantly less mass load on the resonators and these devices exhibited a greater quality factor, Q (>2000, compared to ∼1000 for devices with metal electrodes), which increases the gravimetric sensitivity of the devices by allowing the tracking of smaller frequency shifts. Protein solutions with different concentrations were loaded on the top of the resonators and their responses to mass-load from physically adsorbed coatings were investigated. Results show that resonators using CNTs as the top electrode exhibited a higher frequency change for a given load (∼0.25 MHz cm2 ng-1) compared to that of a metal thin film electrode (∼0.14 MHz cm2 ng-1), due to the lower mass of the CNT electrodes and their higher active surface area compared to that of a thin film metal electrode. It is therefore concluded that the use of CNT electrodes on resonators for their use as gravimetric biosensors is a significant improvement over metallic electrodes that are normally employed. © 2011 Elsevier B.V. All rights reserved.

ZnO-Based FBAR resonators with carbon nanotube electrodes

Film bulk acoustic resonator (FBAR) devices with carbon nanotube (CNT) electrodes directly grown on a ZnO film by thermal chemical vapor deposition have been fabricated. CNT electrodes possess a very low density and high acoustic impedance, which reduces the intrinsic mass loading effect resulting from the electrodes' weight and better confines the longitudinal acoustic standing waves inside the resonator, in turn providing a resonator with a higher quality factor. The influence of the CNTs on the frequency response of the FBAR devices was studied by comparing two identical sets of devices; one set comprised FBARs fabricated with chromium/ gold bilayer electrodes, and the second set comprised FBARs fabricated with CNT electrodes. It was found that the CNTs had a significant effect on attenuating traveling waves at the surface of the FBARs' membranes because of their high elastic stiffness. Three-dimensional finite element analysis of the devices fabricated was carried out, and the numerical simulations were consistent with the experimental results obtained. © 2011 IEEE.

Analysis of CFRP strap-strengthened reinforced concrete beams using the modified compression field theory (MCFT)

External, prestressed carbon fiber reinforced polymer (CFRP) straps can be used to enhance the shear strength of existing reinforced concrete beams. In order to effectively design a strengthening system, a rational predictive theory is required. The current work investigates the ability of the modified compression field theory (MCFT) to predict the behavior of rectangular strap strengthened beams where the discrete CFRP strap forces are approximated as a uniform vertical stress. An unstrengthened control beam and two strengthened beams were tested to verify the predictions. The experimental results suggest that the MCFT could predict the general response of a strengthened beam with a uniform strap spacing < 0.9d. However, whereas the strengthened beams failed in shear, the MCFT predicted flexural failures. It is proposed that a different compression softening model or the inclusion of a crack width limit is required to reflect the onset of shear failures in the strengthened beams.