删除或更新信息,请邮件至freekaoyan#163.com(#换成@)

基于动力学响应的聚合物膜电位型传感器的构建及在环境分析中的应用

本站小编 Free考研考试/2022-02-11

基于动力学响应的聚合物膜电位型传感器的构建及在环境分析中的应用
刘淑文
学位类型博士
导师秦伟
2019-11-28
学位授予单位中国科学院大学
学位授予地点中科院烟台海岸带研究所
学位名称工学博士
学位专业环境科学
关键词离子选择性电极,动力学,电位型传感器,计时电位分析,环境分析
摘要聚合物膜离子选择性电极检测技术具有仪器简单、分析速度快、检测成本低、易于实现微型化等优点,已在生物分析和环境检测等领域得到应用广泛。传统的离子选择性电极检测基于热力学平衡原理,电位响应与待测离子的活度符合能斯特方程。虽然聚合物膜离子选择性电极已被报导用于环境分析,但是受热力学能斯特响应特征的局限以及环境基体的影响,电极测定灵敏度及抗干扰能力有待提高。此外,基于能斯特响应的离子选择性电极仅能用于单一目标物检测,难以实现多种目标物检测。动力学电位分析法具有灵敏度高、选择性好、可逆性强、可实现多组份分析等优势,因此本论文发展一系列基于动力学响应的聚合物敏感膜电极,通过离子通量的调控,实现对待测离子的形态分析和高灵敏检测;采用新的输出方式,降低环境中背景电解质的干扰;开发基于逻辑门和核酸适配体电位传感器,用于不同靶分子的检测,实现在单一聚合物敏感膜上的多组分分析;将生物放大等技术引入电位传感器的设计,实现信号放大和高灵敏电位检测。研究工作概况如下:
聚合物膜钙离子选择性电极检测游离钙和总钙浓度
钙是自然界广泛存的一种元素,许多重要的生理作用与钙的存在形态密切关系。因此,钙的形态分析对于了解自然环境中的生物利用度和反应活性具有重要意义。本文发展了2种聚合物膜钙离子选择性电极,通过改变内充液的组成,分别实现了溶液中游离的钙离子活度以及在络合剂乙二胺四乙酸钠(EDTA)和腐殖酸存在下总钙浓度的检测。研究结果表明:当聚合物膜钙离子选择性电极的内充液为10-3 M CaCl2时,可实现低至10-6 M 游离的钙离子活度的检测;而当聚合物膜钙离子选择性电极的内充液为10-3 M CaCl2与5 × 10-2 M Na2EDTA (pH 9.0)的混合溶液时,电极在10-6-10-5 M Ca2+范围内产生从样品溶液相到敏感膜相较强的钙离子通量,并伴随超能斯特现象发生,电位差值约180 mV,电极的电位响应与总钙浓度成线性相关,而与游离的钙离子浓度无关。据此,可实现以聚合物膜钙离子选择性电极对游离钙离子活度和总钙浓度的分析。本方法为进一步开展环境水体形态分析提供了一种简单、有效的技术手段。
2. 基于脉冲恒电流控制的聚合物膜钙离子选择性电极检测海水中钙离子
传统的钙离子选择性电极基于热力学平衡,电极的响应符合能斯特方程,响应斜率仅为30 mV/dec。在这种情况下,1mV电位变化会引起8 %的误差。海水中钙离子浓度变化很小,采用传统的钙离子选择性电极检测时会引起较大的误差。因此,需要发展一种高灵敏度的钙离子选择性电极。本文发展了一种基于脉冲恒电流控制的聚合物膜钙离子选择性电极,实现了海水中钙离子的高灵敏检测。该电极敏感膜以惰性亲脂盐ETH 500代替传统的离子交换剂,在这种情况下,通过膜相的离子通量完全由所施加脉冲恒电流控制。在0.5 M NaCl背景条件下,通过向电极敏感膜施加阴极脉冲恒电流,使得待测溶液中的钙离子被有效萃取到膜相,产生计时电位响应,用于钙离子检测。通过对所施加阴极脉冲电流的时间和大小优化,电极在10-3—10-2 M Ca2+ 浓度范围内呈超能斯特响应,响应斜率为80 mV/ dec。该电极对海水中高含量的Na+、Mg2+、K+ 具有较高的选择性,且表现出良好的重复性。将该电极应用于实际海水钙离子浓度的检测,测定结果与ICP-AES法相吻合;与传统电位法相比,本方法降低了测定的标准偏差。
3. 以过渡时间为输出信号的计时电位分析法检测海水中钙离子浓度
对于动力学电位分析法,以电位为输出信号的聚合物膜钙离子选择性电极检测钙离子浓度时,通常会受到背景电解质的干扰。因此,需要发展一种受背景电解质干扰小的检测方法。本章提出以过渡时间作为分析信号的计时电位分析技术,用于海水高背景电解质条件下钙离子浓度的检测。钙离子选择性敏感膜内不包含离子交换剂,当向敏感膜相施加较长时间的阴极恒电流时,钙离子在敏感膜表面耗尽,此时背景离子钠离子随着主离子钙离子一起被萃取到膜相以保持施加的离子通量。钙离子在敏感膜表面耗尽的时间被称为过渡时间,表现为电位随时间瞬态斜率的变化。根据Sand方程,以施加恒电流时获得过渡时间的平方根为定量信号,用于钙离子浓度检测。通过改变施加恒电流的大小以及敏感膜的厚度,可以实现对过渡时间的优化。实验结果表明,过渡时间几乎不受背景电解质的干扰。因此,本章提出的以过渡时间作为分析信号的计时电位分析技术,可用于海水中钙离子浓度的检测。
?
4. 基于G-四链体脱氧核酶和逻辑门操作的电位型核酸适配体传感器检测卡那霉素和土霉素
传统电位型传感器的响应主要与聚合物敏感膜相的离子载体有关。因而,聚合物膜离子选择性电极主要应用于单一离子的检测,难以用于多种目标的检测。分子逻辑门通常需要分子能够对两种或以上的外界刺激有所响应,并由二进位布尔逻辑规则在分子体系实现输入信号到输出信号的转换。本文首次在单一敏感膜电极基础上,发展了基于G-四链体脱氧核酶和逻辑门操作的双组份检测的电位型核酸适配体传感器。将双功能核酸适配体和G-四链体核酸序列固定在磁珠上,形成DNA杂交结构;采用“OR”或“INHIBIT”逻辑操作,实现对卡那霉素和土霉素的同时电位检测。在“OR”逻辑操作中,以待测的抗生素作为输入信号,以不同抗生素产生的电位响应为输出信号。当有目标物存在时,目标物能够与磁珠上相应的核酸适配体作用,从而释放出G-四链体脱氧核酶信号输出序列;该序列能够与血红素作用形成G-四链体脱氧核酶,进而在H2O2存在条件下催化底物生成阳离子反应中间体TMB+,产生计时电位响应。在“INHIBIT”逻辑操作中,以不同抗生素以及其特异性识适体分别作为输入信号,各输入信号产生的电位响应为输出信号。当待测抗生素与其适体同时存在时,其适体将抑制抗生素与磁珠上的核酸适配体作用,则不产生G-四链体脱氧核酶信号输出序列释放。在最优条件下,该传感器对卡那霉素和土霉素的检出限为7.5 nM和9.8 nM,并能成功用于海水中卡那霉素和土霉素的检测。
5. 基于酶催化聚合诱导离子通量阻碍效应的电位型核酸适配体传感器检测土霉素
近年来,基于对离子通量阻碍效应的电位传感技术已受到广泛关注。但是,基于聚合物敏感膜表面阻碍被动离子通量的传感技术往往存在电位响应信号小以及重现性差等问题。计时电位分析可以快速精确地控制离子选择性电极的跨膜离子通量,显著提高电极响应的重现性。在此基础上,我们提出了一种原位酶催化聚合诱导离子通量阻碍效应的电位生物传感器,用于对目标物的高灵敏检测。该传感器的分子识别基于核酸适配体与目标物的高亲和性结合作用,其信号放大基于HRP催化多巴胺在聚合物敏感膜表面沉积形成牢固附着的聚多巴胺层。在脉冲恒电流条件下,该聚多巴胺层可以有效阻碍从水相至到敏感膜相的钙离子通量,从而降低电位响应,实现对目标物的高灵敏检测。本文选取抗生素土霉素为目标物。在优化条件下,该计时电位生物传感器对土霉素的检出限为28 pM,并能成功用于海水中土霉素的检测。
其他摘要Polymeric membrane ion-selective electrodes (ISEs) have been widely used in the fields of bioanalysis and environmental monitoring, due to their attractive features including simple instrumentation, rapid response and low cost. The potential response of a conventional ISE based on thermodynamic equilibrium is related to the activity of the ion of interest, which can be expressed by Nernst equation. However, the traditional polymeric membrane ISEs suffer from problems of the low sensitivity during the response slope due to the Nernst equation and of the presence of various interfering ions for environmental monitoring. Additionally, one traditional polymeric membrane ISE only responses to one specific ion, but cannot be used for detection of multiple ananlytes. ISEs based on dynamic responses show the advantages of high sensitivity, good selectivity, excellent reversibility and capability for detection of multiple ananlytes. In this thesis, a series of polymeric membrane ISEs based on dynamic potentiometry are described. By precisely controlling the ion fluxes of polymeric membrane electrodes, the speciation informations and improved sensitivity can be obtained. Transition time, a new readout is proposed to reduce the interference of high background electrolyte. The dual-or multianalyte detection using a single membrane electrode can be achieved by the integration of logic gate operations with potentiometric measurements. A highly sensitive potentiometric biosensor is also proposed based on biological amplification. The contents of the thesis are as follows:
Detection of free and total ionic concentrations by using calcium-selective polymeric membrane electrodes
Calcium is a widespread and important element, and many physiological effects are related to its speciation. The speciation analysis of calcium is of key importance for understanding bioavailability and reactivity in natural and biomedical environments. In this work, we have developed two kinds of calcium-selective polymeric membrane electrodes (Ca2+-ISEs) with different inner filling solutions for the detection of free and total ionic concentrations in the presence of EDTA and humic acid. The results indicate that the free Ca2+ activity, which could be as low as 10-6 M, can be obtained by the Ca2+-ISE (I) with the inner filling solution of 10-3 M CaCl2, while the Ca2+-ISE(II) with the inner filling solution of 10-3 M CaCl2 and 5 × 10-2 M Na2EDTA adjusted to pH 9.0, exhibits an apparently super-Nernstian response(ΔE = 180 mV)in the concentration range of 10-6 -10-5 M Ca2+. Within the super-Nernstian potential response range, the potential is found to be linearly related to the total Ca2+ concentration, rather than the free Ca2+ activity. Based on these properities, both the total and free ionic concentrations can be obtained by the proposed Ca2+-ISEs with different inner filling solutions. The proposed ion-selective polymeric membrane provides a simple and effective method for speciation analysis.
2. Current pulse based ion-selective electrodes for chronopotentiometric determination of calcium in seawater
The theoretical slope of the traditional Ca2+-ISE based on thermodynamic equilibrium is about 30 mV/dec, which means that a potential difference of 1 mV causes a 8% change in the activity of Ca2+. This may be problemetic for detection of Ca2+ in seawater by using the traditional Ca2+-selective electrode, due to the slight changes in the activity of Ca2+ in seawater. Therefore, it’s required to develop a highly sensitive and accurate method for determination Ca2+ in seawater. In this work, we have developed a current pulse based ion-selective electrode with enhanced sensitivity for chronopotentiometric measurements of calcium in seawater. The Ca2+-selective membrane containing lipophilic salt ETH 500 instead of traditional ion-exchanger is galvanostatically controlled. Under the background solution containing 0.5 M NaCl, an applied constant cathodic current pulse can leads to the extraction of the calcium ions into the membrane to produce a chronopotential response, which shows a stable and reproducible super-Nernstian response in a narrow calcium activity range. The super-Nernstian region of the electrode depends on not only the magnitude and duration of the applied current pulse but also the interfering ions. Under optimal conditions, the proposed Ca2+-ISE exhibits a super-Nernstian response between the calcium concentrations of 10-2.5–10-1.5 M with a slope of ca 80 mV/dec. Additionally, the Ca2+-ISE shows high selectivity towards Na+, Mg2+, and K+. The current pulse based Ca2+-ISE has been applied to determination of calcium in seawater with satisfactory results. Compared with those of the conventional Ca2+-ISE, the standard deviations obtained by proposed Ca2+-ISE proposed are significantly reduced.
3. Detection of calcium in seawater based on transition time resolved chronopotentiometry
In dynamic potentiometry, the potentiometric responses of polymeric membrane ISEs are reported to be significantly influenced by the presence of the background electrolyte. Therefore, it’s necessary to develop a promising approach which is less disturbed by the background electrolyte for determination Ca2+ concentration in seawater. In this work, an ion-selective electrode with transition time as a readout signal for chronopotentiometric measurement of calcium concentration in seawater is proposed. The proposed Ca2+-selective membrane doesn’t contain a traditional ion exchanger. When a constant cathodic current pulse with a long duration is applied on the Ca2+-selective membrane, the localized depletion of calcium ions at the transition time occurs, which subsequently results in the co-extraction of calcium and sodium ions from the sample solution into the membrane phase. The square root of transition time, i.e. a potential change (inflection point) of the chronopotentiometry is proportional to the calcium concentration, which is can be expressed by the Sand equation. Additionally, it’s found that the transition time is related to the magnitude of the applied current and the membrane thickness, rather than the presence of the background electrolyte. The proposed chronopotentiometry with transition time as a readout signal is an attractive methodology to detect the calcium concentration in seawater.
4. Chronopotentiometric aptasensing platform based on a G-quadruplex/hemin DNAzyme and logic-gate operations for detection of KANA and OTC
Conventional potentiometric ion sensors that rely on a specific ion carrier in a polymeric membrane can hardly achieve multianalyte detection. Inspired by the remarkable ability of built-in logic gates sensors for multianalyte detection, herein we report a potentiometric aptasensing platform based on a G-quadruplex/hemin DNAzyme and logic gate operations for determination of two analytes using a single membrane electrode for the first time. A bifunctional aptamer and a signal reporter nucleic acid are assembled on the magnetic beads to form a DNA hybrid structure. The “OR” and “INHIBIT” logic functions can be performed by using the two aptamers and their targets as inputs, and using the chronopotentiometric response based on the G-quadruplex/hemin DNAzyme-H2O2-mediated oxidation of TMB as output. Kanamycin(KANA) and oxytetracycline(OTC)have been employed as the models. Under optimal conditions, the dual targets can be sensed in the range from 10 to 100 nM, with the detection limits of 7.5 and 9.8 nM (3σ) for KANA and OTC, respectively. The potentiometric aptasensing protocol has been evaluated with spiked seawater samples with satisfactory results.
5. Chronopotentiometric aptasensing with signal amplification based on enzyme-catalyzed surface polymerization for detection of OTC
In recent years, potentiometric biosensing based on the blocking effect of ion fluxes has aroused considerable interest. However, the sensing based on the surface blocking of the passive ion fluxes across the polymeric membrane may suffer from problems of relatively small potentiometric signals and poor reproducibilities. Chronopotentiometry can not only rapidly and precisely control the ion fluxes across the polymeric membrane but also improve the reproducibility of the electrode. In this work, chronopotentiometric biosensor based on in situ enzyme-catalyzed dopamine polymerization is proposed for blocking of the active surface area for a high sensitivity. A signal amplification strategy based on HRP induced biocatalyzed polymerization of dopamine and surface coating has been designed and applied for the chronopotentiometric detection of aptamer-target binding events. Using the pulsed galvanostatic measurement protocol, the polydopamine layer adhering to the ion selective membrane (ISM) would effectively block the current-induced indicator ions and subsequently results in a decrease of the potential response. The target binding induced chronopotential changes of the Ca2+-ISM is used for highly sensitive detection of target. Oxytetracycline (OTC), as an extensively used antibiotic, has been employed as a model. Under the optimized condition, the chronopotentiometric aptasensor exhibits high sensitivity for the quantitative detection of OTC with a detection limit of 28 pM (3σ/S). The potentiometric aptasensing protocol has been evaluated with spiked seawater samples with satisfactory results.
语种中文
文献类型学位论文
条目标识符http://ir.yic.ac.cnhttp://ir.yic.ac.cn/handle/133337/24126
专题中科院海岸带环境过程与生态修复重点实验室
中科院海岸带环境过程与生态修复重点实验室_环境化学实验室

推荐引用方式
GB/T 7714刘淑文. 基于动力学响应的聚合物膜电位型传感器的构建及在环境分析中的应用[D]. 中科院烟台海岸带研究所. 中国科学院大学,2019.


PDF全文下载地址:

点我下载PDF
相关话题/信号 传感器 环境 逻辑 技术

  • 领限时大额优惠券,享本站正版考研考试资料!
    大额优惠券
    优惠券领取后72小时内有效,10万种最新考研考试考证类电子打印资料任你选。涵盖全国500余所院校考研专业课、200多种职业资格考试、1100多种经典教材,产品类型包含电子书、题库、全套资料以及视频,无论您是考研复习、考证刷题,还是考前冲刺等,不同类型的产品可满足您学习上的不同需求。 ...
    本站小编 Free壹佰分学习网 2022-09-19
  • 重金属污染土壤的修复机制与技术发展
    重金属污染土壤的修复机制与技术发展骆永明1;吴龙华;宋静;滕应;胡鹏杰;章海波;涂晨2著作类型著2016-12出版者科学出版社出版地北京摘要本书是作者近20年来开展重金属污染农田、矿区土壤的植物修复和物理-化学修复的理论、方法和技术研究工作的全面总结。重点介绍了重金属的超积累植物吸取机制、高耐性植物 ...
    本站小编 Free考研考试 2022-02-11
  • 中国土壤环境管理支撑技术体系研究
    中国土壤环境管理支撑技术体系研究骆永明;李广贺;李发生;林玉锁;涂晨著作类型著2015-03出版者科学出版社出版地北京摘要本书在充分评估我国土壤环境管理现状和借鉴比较分析国际经验的基础上,从土壤环境的分析方法与标准物质、污染风险评估与标准体系、监测方法技术与设备、污染控制修复技术与设备、信息系统与应 ...
    本站小编 Free考研考试 2022-02-11
  • 有机污染土壤的修复机制与技术发展
    有机污染土壤的修复机制与技术发展骆永明1;滕应;涂晨2;刘五星;吴龙华;宋静;章海波;李振高著作类型著2016出版者科学出版社出版地北京关键词有机污染土壤修复学科领域环境科学技术及资源科学技术ISBN9787030521873所属丛书土壤污染与修复理论和实践研究丛书页数400语种中文文献类型专著条目 ...
    本站小编 Free考研考试 2022-02-11
  • 长江、珠江三角洲地区土壤及其环境
    长江、珠江三角洲地区土壤及其环境骆永明;章海波;吴龙华;滕应;宋静;刘五星;涂晨著作类型著2012出版者科学出版社出版地北京摘要长江、珠江三角洲土壤及其环境以长江、珠江三角洲地区的区域土壤环境地球化学与风险管理为主线,在系统介绍该地区土壤类型、基本理化特征、肥力质量等基础上,深入分析了这两个地区土壤 ...
    本站小编 Free考研考试 2022-02-11
  • 中国土壤环境质量基准与标准制定的理论和方法
    中国土壤环境质量基准与标准制定的理论和方法骆永明;夏家淇;章海波;宋静;滕应;吴龙华;刘五星;涂晨著作类型著2015-03出版者科学出版社出版地北京摘要本书以我国土壤环境质量基准与标准研究为主线,在系统介绍并比较欧美及我国周边地区土壤环境质量基准与标准制定及其方法基础上,从标准的理论、框架和方法体系 ...
    本站小编 Free考研考试 2022-02-11
  • 国家高端体育装备技术创新中心建设方案论证会在山东体育学院举行
    ?  2021年11月11日,国家高端体育装备技术创新中心建设方案论证会在山东体育学院科技楼会议室举行,省科技厅社发处副处长(主持工作)李连文主持会议,国家体育总局体育科学研究所研究员李祥臣,山东大学内分泌与代谢研究所所长陈丽,山东省第一医科大学成果转化与产业部部长李胜,山东省第一医科大学科研处处长 ...
    本站小编 Free考研考试 2022-02-11
  • 来自山东体育学院的“十四运”技术官
    ?  9月26日晚,第十四届全运会赛事收官。本届全运会,山东体育学院24名师生参与了13个项目的执裁工作。他们坚守岗位、秉公执法,默默奉献在全运会赛场上,保障比赛项目规范有序进行,赢得了广泛的社会赞誉。其中,田径国际级裁判田敏连续担任四届全运会的田赛裁判长,王平、李彦等技术官员被组委会授予体育道德风 ...
    本站小编 Free考研考试 2022-02-11
  • 青岛能源所与青岛大学提出条件致病菌指数以评估环境微生态风险
    评估环境中条件致病菌的潜在风险程度并理解其传播途径是维护公共健康的重要环节之一。近日青岛能源所单细胞中心与青岛大学利用研究开发的生物信息工具MIP(MicrobialIndexofPathogenicbacteria),从人体条件致病菌的角度出发考察微生物组多样性和致病性,并从微生物组大数据层面揭示 ...
    本站小编 Free考研考试 2022-02-11
  • 青岛能源所与中国海洋大学发明高分辨率高灵敏度的微生物组测序技术
    微生物组(又称菌群)在自然界和人体中无处不在,因此菌群测序在生态健康诊断、生态过程监控、生物资源挖掘、合成生物学研究等领域均具广阔应用。针对目前菌群测序方法学领域面临的痛点与难点,青岛能源所单细胞中心和中国海洋大学发明了一种高物种分辨率、高灵敏性、可同时鉴定所有原核与真核微生物、不惧样品降解或污染、 ...
    本站小编 Free考研考试 2022-02-11
  • 刘中民代表中科院出席G20洁净能源技术研讨峰会
    10月11日,二十国集团洁净能源技术研讨峰会(ResearchandDevelopment20forCleanEnergyTechnologies(RD20))在日本东京召开。我所刘中民院士受邀代表中国科学院出席了本次峰会并作了邀请报告。  为更好的实施巴黎协定,实现节能减排的目标,日本首相安倍晋三 ...
    本站小编 Free考研考试 2022-02-11