基于纳米自组装技术的功能化溶胶-凝胶过氧化氢生物传感器

结合功能化溶胶-凝胶(sol-gel)网络结构、自组装技术和纳米粒子效应,提出一种生物传感界面构建方法.利用自组装技术在玻碳电极表面组装氨基化sol-gel膜,通过与自组装膜间的强烈作用将纳米金粒子固定于sol-gel网络中,再通过静电吸附作用实现辣根过氧化物酶(HRP)在纳米金粒子表面的固定化,构建纳米自组装HRP传感界面.将制备的传感器用于对H2O2的催化还原,很好地保持了酶的生物活性,改善了传感器的灵敏度.     

Renewable amperometric immunosensor for complement 3 assay based on the sol-gel technique

A renewable amperometric immunosensor based on the sol-gel technique has been constructed by dispersing graphite, complement 3 (C3) antiserum, and sol-gel at low temperature. The prepared immunosensor is rigid, porous, and has a renewable external surface. A competitive binding assay has been used to determine C3 in human serum with the aid of C3 labeled with horseradish peroxidase. The enzyme-labeled antigen can readily diffuse toward the encapsulated antibody, which retains its binding properties. The experimental conditions for the assay with the biocomposite, including the loading of C3 antiserum in the biocomposite, the amount of labeled C3 in incubation solution, incubation time, and temperature, have been optimized. Using C3 labeled with horseradish peroxidase, and o-AP as the substrate, amperometric detection at -150 mV (relative to the SCE) results in a linear detection range of 1.17-35.1 microg mL(-1), with a detection limit of 0.56 microg mL(-1). Serum samples have been assayed and the results demonstrate the feasibility of the proposed immunosensor for clinical analysis. The surface of the immunosensor can be renewed simply by polishing to obtain a fresh immunocomposite ready to use in a new competitive assay.     

A novel capacitive immunosensor based on gold colloid monolayers associated with a sol-gel matrix

A capacitive sensing method based on self-assembling gold nanoparticles to the surface of the sol-gel modified electrode has been developed for the direct detection of the human IgG in human serum. The capacitance of the immunosensor corresponding to the concentration of human IgG is investigated by alternating current impedance. The formed mercaptopropyltriethoxysilane (MPTS) film is ultrathin; the immobilization density of antibodies is high because of high surface-volume area of the assembled gold nanoparticles and the biological macromolecules when immobilized on gold nanoparticles can retain their bioactivity. This capacitive immunosensor prepared with present method can provide high sensitivity. The linear calibration curve was obtained in the range 8.3-2128 ng/ml, with a detection limit of 3.3 ng/ml when plotted versus the logarithm of the antigen concentration. After each immunoassay, the regeneration of the electrode could be performed through washing in basic solution without obvious decrease in response. No cross-reactivity was observed with other protein species. The dependence of sol-gel modified electrode stability on the pH value and ion strength was studied. The insulating properties of the different layers of the immunosensor were also investigated.     

A novel impedance immunosensor based on O-phenylenediamine modified gold electrode to analyze abscisic acid

<正>An impedance immunosensor based on O-phenylenediamine modified gold electrode for the determination of phytohormone abscisic acid(ABA) was proposed.The operating pH,absorption time,absorption temperature and concentration of anti-ABA antibody were investigated to optimize the analytical performance.The calibration curve for the determination of ABA was obtained from this impedance immunosensor under optimal conditions.The results showed that the detection limit at about 1 ng/mL in the range of 10-5000 ng/mL.     

基于溶胶-凝胶技术的丁氯喘电极

报导了一种以硅钨酸为活性物质 ,用溶胶 凝胶技术制做的新型丁氯喘电极。电极有良好的能斯特响应。斜率为 5 5mV以上 ,线性范围为 1 .0× 1 0 -1～5 .0× 1 0 -5mol L ,检测下限为 2 .0× 1 0 -5mol L ,适宜的pH为 4.2～ 8.7。     

A novel α-fetoprotein-MIP immunosensor based on AuNPs/PTh modified glass carbon electrode

A new alpha-fetoprotein-MIP (AFP-MIP) immunosensor based on glass carbon electrode (GCE) modified with polythionine (PTh) and gold nanoparticles (AuNPs) was successfully prepared for the sensitive detection of AFP. The AFP-MIP immunosensor presented a facile preparation, low sample consumption, and good stability, and could become a new promising method for the detection of AFP.     

Au nanoparticle decorated silicate network for the amperometric sensing of isoniazid

Au nanoparticle (nAu) based electrochemical platform for the amperometric sensing of isoniazid at sub-nanomolar level is developed. The sol-gel derived 3-dimensional silicate network pre-assembled on a conducting substrate is chemically decorated with nAu of 70-100 nm by seed-mediated growth approach. The Au nanoseeds are first chemisorbed onto the thiol functional groups of the silicate network and their size was enlarged by hydroxylamine seeding. The nanoparticles efficiently catalyze the oxidation of isoniazid at less positive potential. Large decrease in the overpotential and significant enhancement in the anodic peak current with respect to the polycrystalline Au electrode are observed. The nanoparticle based platform is highly sensitive (4.03 ± 0.01 nA/nM) and it linearly responds to isoniazid up to the concentration of 1 mM. It could detect as low as 0.1 nM (S/N = 5) of isoniazid at the potential of 10 mV in aqueous solution without any redox mediator. The catalytic response of the sensing platform depends on the amount of nanoparticles loaded onto the silicate network. Very interestingly, the sensing platform could simultaneously detect isoniazid and hydrazine in their coexistence without compromising the sensitivity. Well separated individual voltammetric response is obtained for both analytes. The sensing platform is highly stable and it can be repeatedly used for 7 days.     

Double electrochemical covalent coupling method based on click chemistry and diazonium chemistry for the fabrication of sensitive amperometric immunosensor

A double electrochemical covalent coupling method based on click chemistry and diazonium chemistry for the fabrication of sensitive amperometric immunosensor was developed. As a proof-of-concept, a designed alkyne functionalized human IgG was used as a capture antibody and a HRP-labeled rabbit anti-goat IgG was used as signal antibody for the determination of the anti-human IgG using the sandwich model. The immunosensor was fabricated by electrochemically grafting a phenylazide on the surface of a glassy carbon electrode, and then, by coupling the alkyne functionalized human IgG with the phenylazide group through an electro-click chemistry in the presence of Cu(II). The amperometric measurement for the determination of the anti-human IgG was performed after the fabricated immunosensor was incubated with the target anti-human IgG and then with the HRP-labeled anti-goat IgG at −0.25 V in 0.10 M PBS (pH 7.0) containing 0.1 mM hydroquinone and 2.0 mM H₂O₂. The results showed that the increased current was linear with the logarithm of the concentration of the anti-human IgG in the range from 1.0 × 10⁻¹⁰ g mL⁻¹ to 1.0 × 10⁻⁸ g mL⁻¹ with a detection limit of 3 × 10⁻¹¹ g mL⁻¹. Furthermore, the feasibility of the double electrochemical covalent coupling method proposed in this work for fabricating the amperometric immunosensor array was explored. This work demonstrates that the double electrochemical covalent coupling method is a promising approach for the fabrication of the immunosensor and immunosensor array.     

A label-free electrochemical immunosensor based on gold nanoparticles for detection of paraoxon

An electrochemical immunosensor for the direct determination of paraoxon has been developed based on the biocomposites of gold nanoparticles loaded with paraoxon antibodies. The biocomposites are immobilized on the glassy carbon electrode (GCE) using Nafion membrane. On the immunosensor prepared paraoxon shows well-shaped CV with reduction and oxidation peaks located −0.08 and −0.03 mV versus SCE, respectively. The detection of paraoxon performed at −0.03 mV is beneficial for guaranteeing sufficient selectivity. The amount of the biocomposite consisting gold nanoparticles loaded with antibodies and the volume of Nafion solution used for fabricating the immunosensor have been studied to ensure sensitivity and conductivity of the immunosensor. The immunosensor has been employed for monitoring the concentrations of paraoxon in aqueous samples up to 1920 μg l⁻¹ with a detection limit of 12 μg l⁻¹.     

Reagentless amperometric carbohydrate antigen 19-9 immunosensor based on direct electrochemistry of immobilized horseradish peroxidase

A reagentless immunosensor for rapid determination of carbohydrate antigen 19-9 (CA19-9) in human serum was proposed. This strategy was based on the immobilization of antibody in colloidal gold nanoparticle modified carbon paste electrode and the direct electrochemistry of horseradish peroxidase (HRP) that was labeled to a CA19-9 antibody. The nanoparticles were efficient for preserving the activity of immobilized biomolecules. Thus, the immobilized HRP displayed its direct electrochemistry with a rate constant of 1.02 s⁻¹. The incubation of the immunosensor in phosphate buffer solution (PBS) including CA19-9 antigen leading to the formation of antigen-antibody complex, which made the block of electron transfer of HRP toward electrode and resulted in significant peak current decrease of HRP. Under the optimal conditions, the current decrease was proportional to CA19-9 concentrations ranging from 2 to 30 U/ml with a detection limit of 1.37 U/ml at a current decrease by 10%. The immunosensor showed an acceptable accuracy compared with those obtained from immunoradiometric assays, with intra-assay coefficient of 7.3 and 6.9% at CA19-9 concentrations of 5 and 15 U/ml, respectively, and inter-assay coefficient of 9.6% at a CA19-9 concentration of 20 U/ml. The storage stability was acceptable in a pH 7.0 PBS at 4 °C for 10 days. This method avoids the addition of electron transfer mediator, thus simplifies the immunoassay procedure and decreases the analytical time. It provides a new promising platform for clinical immunoassay.     

纳米金修饰电流型CA19-9免疫传感器的制备及应用

通过固定辣根过氧化酶（HRP）标记CA19-9抗体在纳米金修饰的碳糊电极制备了CA19-9安培免疫传感器。该免疫传感器在舍有CA19-9抗原的磷酸盐缓冲溶液中培育后,溶液中CA19-9抗原分子和HRP标记CA19-9抗体分子免疫结合导致了传感器电流的降低。在优化的实验条件下,样品中CA19-9浓度在2～30U／mL范围内与电流降低成线性关系,方法的检出限为1．4U／mL。该免疫传感器表现出较好的稳定性、准确性和重现性,为临床免疫分析提供了一种快速便捷方法。     

Development of a disposable amperometric immunosensor for the detection of ecstasy and its analogues using screen-printed electrodes

An amperometric immunosensor for the specific and simple detection of 3,4-methylenedioxyamphetamine (MDA) and its analogues, 3,4-methylenedioxymethamphetamine (MDMA) and 3,4-methylenedioxyethylamphetamine (MDEA) in saliva and urine was developed. A direct competitive assay in which free analyte and horseradish peroxidase labelled species were simultaneously added to an immobilised polyclonal antibody was employed. Both MDA and MDMA could be labelled with the enzyme and the use of an MDMA-HRP tracer greatly enhanced the sensitivity of the assay. Amperometric detection was performed at +100 mV versus Ag/AgCl, using tetramethylbenzidine (TMB)/H₂O₂ as substrate. The antibody, raised specifically against the methylenedioxy moiety of an MDA-BSA immunogen allowed highly specific detection of these analogues with negligible cross-reactivity towards any other amphetamine related compounds. Total assay time was 45 min and the standard curve using MDA could be evaluated within the range 0.61-400 ng ml⁻¹ with corresponding limit of detection (LOD) of 0.36 and 0.042 ng ml⁻¹ for saliva and urine, respectively. The cross-reactivity pattern of the analytes was determined and showed the order of sensitivity increased with increased alkyl chain length (MDA < MDMA < MDEA). The overall performance of the sensor, working range, precision and sensitivity demonstrate its usefulness for rapid and direct measurement of methylenedioxy analogues of ecstasy in saliva and urine. The sensor has better specificity than any previous method for ecstasy, with greater sensitivity than ELISA methods, is less expensive/assay with an “easier to use” format than previous methods. The detection works in saliva or urine, eliminating requirement of blood sampling, with improved precision.     

溶胶-凝胶壳聚糖/二氧化硅杂化复合膜固定辣根过氧化酶的H2O2电化学生物传感器的研制

利用溶胶 凝胶法制备壳聚糖 二氧化硅有机无机复合杂化膜,用于对辣根过氧化酶进行固定,制得测定H2O2的电流型生物传感器。以1mmol/LK4Fe(CN)6作为电子媒介体。研究了各种因素如壳聚糖与二氧化硅的比率、pH、温度、工作电位等对传感器响应电流的影响。计时电流法测定H2O2的线性范围为2.0×10-6～6.8×10-4mol/L,检出限为8.0×10-7mol/L。测得酶催化动力学参数米氏常数Km=0 87mmol/L。用该法对实际样品进行了测定。     

Raspberry-like polymer/silica core-corona composite by self-assemble heterocoagulation based on a hydrogen-bonding interaction

Raspberry-like poly(ethyleneglycol dimethacrylate-co-4-vinylpyridine)/silica (poly(EGDMA-co-VPy)/SiO₂) core-corona composite was prepared by a self-assemble heterocoagulation based on a hydrogen-bonding interaction between the pyridyl group of poly(EGDMA-co-VPy) core and the active hydroxyl group of silica corona. The raspberry-like composite was stable near the neutral environment with pH ranging from 5.0 to 8.0. The effects of the solvent and the mass ratio of silica to polymer microsphere on the coverage of the silica corona on poly(EGDMA-co-VPy) core were investigated in detail. The resultant core-corona heterocoagulates were characterized with scanning electron microscope and the nature of the interaction between the polymer core particle and silica corona particle was identified as hydrogen bonding with Fourier Transform Infrared spectroscopy.     

Renewable amperometric immunosensor for complement 3 assay based on the sol–gel technique

A renewable amperometric immunosensor based on the sol–gel technique has been constructed by dispersing graphite, complement 3 (C3) antiserum, and sol–gel at low temperature. The prepared immunosensor is rigid, porous, and has a renewable external surface. A competitive binding assay has been used to determine C3 in human serum with the aid of C3 labeled with horseradish peroxidase. The enzyme-labeled antigen can readily diffuse toward the encapsulated antibody, which retains its binding properties. The experimental conditions for the assay with the biocomposite, including the loading of C3 antiserum in the biocomposite, the amount of labeled C3 in incubation solution, incubation time, and temperature, have been optimized. Using C3 labeled with horseradish peroxidase, and o-AP as the substrate, amperometric detection at –150 mV (relative to the SCE) results in a linear detection range of 1.17–35.1 μg mL^–1, with a detection limit of 0.56 μg mL^–1. Serum samples have been assayed and the results demonstrate the feasibility of the proposed immunosensor for clinical analysis. The surface of the immunosensor can be renewed simply by polishing to obtain a fresh immunocomposite ready to use in a new competitive assay.     

A highly sensitive electrochemical immunosensor based on coral-shaped AuNPs with CHITs inorganic-organic hybrid film

A highly sensitive electrochemical immunosensor based on combination of chitosan (CHIT) and coral-shaped AuNPs (C-AuNPs) to form an immobilization matrix has been developed using human IgG as a model analyte. The inorganic-organic hybrid film with abundant adsorbing sites and large surface area can reserve the biocompatibility of the biomaterials which greatly increase loading amounts of assembling, thus, significantly improves the performance of biosensing. The morphology is studied by scanning electron microscopy (SEM). Under the optimized experimental conditions, the immunosensor exhibits excellent performance (e.g., a detection limit of 5 pmol L⁻¹, a linear dynamic range of 3 orders of magnitude, high specificity). This possibly makes it an attractive platform for the direct immunoassay of human IgG or other biomolecules.     

A new antibody immobilization strategy based on electrodeposition of nanometer-sized hydroxyapatite for label-free capacitive immunosensor

A new antibody immobilization strategy was proposed for the fabrication of a label-free capacitive immunosensor based on electrodeposition of nanometer-sized bioactive hydroxyapatite (HAP). By a procedure of constant current cathodal electrodeposition, a nano-HAP film with bioactivity was formed on a self-assembled β-mercaptoethanol monolayer-modified gold electrode. A suitable amount of chitosan was added into the electrodeposition solution with the aim of obtaining a strong and homogeneous HAP-coating film. After blocking with long-chain alkylthiol and then embedding antibody by coupling with divinylsulphone, the electrode was possessed of a higher initial capacitance value, which was suitable for capacitive transduction. The sensitive layer was characterized by Fourier transform infrared spectrum, scanning electron microscopy and electrochemical method. Human transferrin immunoassay was selected as the testing system. The linear response range of the sensor for transferrin was between 1 and 100 ng/mL with a detection limit of 0.15 ng/mL. After simply rinsing with subacidity solution, the regenerated sensor achieved up to 10 assay cycles without significant loss of sensitivity.     

基于脂质体信号增强癌胚抗原电化学免疫传感器的研究

研究了在玻碳电极利用巯基乙胺固定纳米金、然后纳米金固载癌胚抗体(Ab1),采用脂质体包裹电子媒介体硫堇,脂质体周围联接标记辣根过氧化物酶(HRP)的癌胚抗体(Ab2)对其传感器进行信号放大,通过循环伏安法考察了该免疫传感器的电化学特性,在优化的实验条件下,该免疫传感器的峰电流随着检测溶液中癌胚抗原(CEA)浓度的增大而增大,并在0.05～200 ng/mL CEA范围内呈现线性关系,回归方程为:Δi=0.20+0.24ρ(ng/mL);检测限为:18pg/mL(R=0.9947)。该免疫传感器可用于临床上对CEA的检测。     

Electrochemical and surface characterization of mild steel with corrosion resistant zirconia network fabricated by aqueous sol-gel technique

Zirconia (ZrO₂) coating was developed on mild steel surface through an aqueous sol-gel route followed by heat treatment. The coating quality was optimized by varying dipping time, curing time, and drying temperature. ZrO₂ coating was competent to prevent a substantial corrosion loss in 0.5 ​M–2 ​M hydrochloric acid with more than 90% efficiency. The morphology of coated surface has revealed the formation of a fine ZrO₂ network on the metal surface at optimum conditions. This network is found to be effective to control steel deterioration in hydrochloric acid and the same appeared to be either cracked or irregular for less efficient formulations.     

A sensitive impedance immunosensor based on functionalized gold nanoparticle-protein composite films for probing apolipoprotein A-I

A sensitive and label-free electrochemical impedance immunosensor via covalent coupling the antibody with functionalized gold nanoparticles (FAuNP) for probing apolipoprotein A-I was presented. The hybrid gold nanoparticles were prepared with a two-in-one strategy, i.e. via the stepwise employment of self-assembled monolayer (SAM) and sol-gel techniques, to improve the performance of such a label-free immunosensor, which was investigated by electrochemical impedance spectroscopy. It was found that this novel FAuNP immunosensor showed higher protein-loading capacity and better response properties (6-17 times) than that fabricated by normal SAM technique did. The remarkably improved properties of the immunosensor were ascribed to FAuNP with the larger surface-to-volume ratio, more free amino linkage groups, and the lower nonspecific protein adsorption. As a result, the thus-prepared antibody-modified immunosensor showed reproducible (R.S.D. = ±3.2%, n = 10) linear response to apolipoprotein A-I (Apo A-I) antigens in the range of 0.1-10 ng mL⁻¹. The detection limit of this immunosensor was 50 pg mL⁻¹ (corresponding to 1.8 pmol L⁻¹), which was two orders of magnitude lower than that of the traditional methods. These results exhibited the novel immunosensor had a high sensitivity, stability and selectivity for the determination of Apo A-I, especially in clinic microanalysis.