基于果糖自氧化体系的抗氧化剂筛选方法

机体内果糖的自氧化过程中会产生多种自由基, 并最终转化为羟自由基, 苯甲酸钠可捕获羟自由基生成具有强荧光信号的羟基苯甲酸钠. 本文采用荧光光度法考察了影响果糖自氧化体系的各种因素, 建立了果糖自氧化产生羟自由基体系. 实验结果表明, 在果糖浓度为8.00 mmol/L, CuSO₄浓度为20.0 μmol/L, 苯甲酸钠浓度为24.0 mmol/L, pH=7.4, 温度为37℃及反应时间为24 h的条件下, 果糖自氧化体系最终可产生19.27 μmol/L的羟自由基. 抗氧化剂的存在可清除果糖自氧化过程中产生的自由基, 使最终生成的羟自由基的量减少, 从而导致生成的羟基苯甲酸钠减少, 荧光信号减弱, 由此建立了基于果糖自氧化体系的抗氧化剂筛选方法. 利用本评价体系考察了抗氧化剂盐酸小檗碱和阿魏酸的抗氧化能力, 实验结果表明, 中药标准品盐酸小檗碱和阿魏酸均能有效清除果糖自氧化体系产生的羟自由基, 其IC₅₀值分别为0.023和0.036 mmol/L.     

芜菁籽不同溶剂提取物体外抗氧化活性研究

通过体外试验初步研究芜菁籽提取物的抗氧化活性。用95%乙醇为溶剂提取芜菁籽,采用有机溶剂萃取法将提取物分为石油醚相,乙酸乙酯相,正丁醇相和水相等4个不同极性部位、同时测定了各相提取物对羟自由基,超氧阴离子自由基,DPPH自由基的清除能力,并与合成抗氧化剂BHT进行对照。结果表明,芜菁籽提取物的不同极性部位均有抗氧化活性,其抗氧化效果随着浓度的增加而增强,乙酸乙酯相和正丁醇相的还原能力及清除O-2.,DPPH和.OH的能力均强于水相和石油醚相,乙酸乙酯相和正丁醇相的抗氧化作用强,是天然抗氧化剂的良好来源,应对其进一步分离纯化。     

Cy5-Fe2+-H2O2光度法测定天然抗氧化剂的抗氧化活性

在缓冲溶液中,Fenton体系产生的羟基自由基能迅速与五甲川菁染料(Cy5)作用使其褪色,在647 nm处测定体系吸光度的变化,可间接测定羟基自由基的生成量。抗氧化剂的加入可部分消除溶液中的羟基自由基,从而使溶液的吸光度下降程度减弱。据此建立了一种测定抗氧化剂对羟基自由基清除率的新方法。利用所建立的方法测试了抗氧化剂2,6-二叔丁基对甲基苯酚以及几种天然抗氧化剂的抗氧化活性,得到了满意的结果。该方法操作简便、稳定性好,可以作为一种简便的筛选抗氧化剂的方法。     

苯甲酸-Fenton体系荧光法测定中草药抗氧化活性

利用Feton体系产生羟自由基,能与苯甲酸反应生成具有强荧光的产物,加入抗氧化剂可有效清除羟自由基,导致体系荧光强度降低.据此建立了筛选抗氧化剂的荧光新体系.应用所建立的方法测定了葛根、吴茱萸和黄连三种常见中草药的抗氧化活性.结果表明,当中草药的浓度为0.4 mg(dry weight)/mL时,葛根、吴茱萸、黄连对羟...     

抗氧化剂的毛细管电泳-间接化学发光联用在线评价方法研究

根据碱性条件下羟自由基与luminol反应会产生化学发光而抗氧化剂能够清除羟自由基从而抑制发光的原理, 结合毛细管电泳技术, 建立了一种针对多组分共存体系中抗氧化组分的在线评价的新方法. 对这种毛细管电泳-间接化学发光检测技术, 优化化学发光的各种条件, 考察了抗氧化剂硫脲和麻黄碱的抗氧化活性, 采用曲线拟合求出它们对羟自由基的半数清除浓度(IC₅₀), 得出抗氧化活性大小为麻黄碱＞硫脲, 这与荧光分光光度法的结果一致. 该方法初步应用于评价中药槐米提取物化学组分的抗氧化活性.     

新型非对称电化学电容器的电极匹配研究

活性炭负极容量的有效利用率是导致双电层电化学电容器和C/Ni(OH)2非对称电化学电容器容量性质差异的主要因素,并可将其作为非对称电化学电容器容量设计和测算的依据;本文引入Ni(OH)2正极有效活性物质概念,以正极有效活性物质的量匹配负极的设计容量,从而优化正、负极的容量匹配,改善非对称电化学电容器的容量和大电流性能.     

山药多糖的制备及其体外抗氧化活性

提取山药粗多糖并进行精制,分析了山药多糖的单糖组成,并研究了山药多糖的体外抗氧化活性.结果表明,山药精制多糖纯度较高,由鼠李糖、阿拉伯糖、甘露糖、葡萄糖和半乳糖组成.体外抗氧化活性测试结果表明,山药多糖具有一定的还原能力,对羟自由基具有较强的清除能力,并对小鼠肝匀浆自氧化有明显的抑制作用.因此,山药多糖具有较好的抗氧化活性,可作为潜在的抗氧化剂或抗衰老药物进行深入研究和开发.     

3种分光光度法对天然抗氧化物质抗自由基性能的分析检测

用1,1 二苯基 2 苦基肼(DPPH)自由基捕获、亚硝基R盐 Co3 褪色、连苯三酚红等3种分光光度法对3种野生植物抗氧化剂的对自由基的作用进行了分析检测及方法比较研究。3种分光光度法对自由基的分析检测及抗氧化剂的抗自由基性能检测方法,对于普通实验室检测自由基或相关的研究工作具有很好的实用性。没食子酸丙酯及葡萄籽提取物的抗氧化性要优于灯盏花素提取物。对自由基的清除率可以达到40%～80%,具有很好的抗氧化能力及氧自由基清除作用。     

迷迭香单体的抗氧化活性

采用柱层析方法对迷迭香抗氧化剂(Rao)进行分离,分离出8个含量较高的单体.用光度法、ESR法、滴定法测定了迷迭香的8个单体、单体组合及Rao的抗氧化活性,并分析了抗氧化活性与其结构的关系.结果表明,在单体中,对超氧阴离子自由基及羟基自由基清除率最高的是槲皮素,分别为82.6%和87.1%.对香烟烟气自由基平均清除率最高的是迷迭香二酚,清除率为48.17%.单体活性最强的槲皮素和迷迭香二酚组合后,其抗氧化活性高于单体.活性强的抗氧化剂对油脂过氧化的抑制效果好,但作用时间较短.     

4种黄酮小分子对DPPH自由基的清除作用及构效关系研究

通过紫外可见光谱测定了4种黄酮小分子芦丁、牡荆素、山奈素、金丝桃苷对DPPH自由基的清除率、稳定性及半抑制浓度(IC50),并以常用的天然抗氧化剂抗坏血酸作为对照,考察了其抗氧化效果,探讨了黄酮类化合物的抗氧化性与结构的关系。结果表明：不同的抗氧化剂清除DPPH自由基达到平衡的时间不同,芦丁所需时间最长。4种黄酮小分子及抗坏血酸均对DPPH自由基有清除效果,并存在一定的量效关系。对DPPH自由基的清除能力从大到小依次为金丝桃苷、抗坏血酸、芦丁、山奈素、牡荆素。结构分析表明,B环邻二酚羟基是黄酮类化合物抗氧化所必需的基团,其羟甲基化及A环羟基糖苷化不利于黄酮类化合物的抗氧化活性。而C环3-OH的糖苷化对抗氧化活性有利,且单糖苷优于双糖苷。     

Photoelectrochemical Detection of L‐Cysteine with a Covalently Grafted ZnTAPc‐Gr‐based Probe

L‐cysteine plays a vital role in organisms, and is an important biomarker for many pathological diseases that seriously affect human health. In the study, a photoelectrochemical (PEC) probe with zinc‐tetramine phthalocyanine covalently grafted to graphene oxide (ZnTAPc‐Gr) was developed for L‐cysteine detection. Graphene oxide (GO) with carboxyl was used to immobilize zinc‐tetramine phthalocyanine (ZnTAPc) with amidogen (a graft structure formed by an amide covalent bond), which could firmly immobilize ZnTAPc, thereby improving the photoelectrochemical performance and stability. L‐cysteine molecule, an electron acceptor, was specifically recognized by the PEC probe, exhibiting a decrease in the photocurrent signal. Under the optimal experimental conditions, the fabricated PEC probe exhibited excellent performance in L‐cysteine analysis within a linear range of 0.25–113 μM and a detection limit of 11.4 nM. The PEC probe showed high sensitivity, selectivity, and stability. The method described herein provides an effective strategy for PEC probe construction for L‐cysteine detection, and can also serve as a promising PEC platform for the analyses of other small molecules.     

Carbon Nitride Materials for Water Splitting Photoelectrochemical Cells

Graphitic carbon nitride materials (CNs) have emerged as suitable photocatalysts and heterogeneous catalysts for various reactions thanks to their tunable band gap, suitable energy‐band position, high stability under harsh chemical conditions, and low cost. However, the utilization of CN in photoelectrochemical (PEC) and photoelectronic devices is still at an early stage owing to the difficulties in depositing high‐quality and homogenous CN layer on substrates, its wide band gap, poor charge‐separation efficiency, and low electronic conductivity. In this Minireview, we discuss the synthetic pathways for the preparation of various structures of CN on substrates and their underlying photophysical properties and current photoelectrochemical performance. The main challenges for CN incorporation into PEC cell are described, together with possible routes to overcome the standing limitations toward the integration of CN materials in PEC and other photoelectronic devices.     

A Photoelectrochemical Immunosensor for Prostate Specific Antigen Detection Based on Graphdiyne Oxide Conjugated with Horseradish Peroxidase

Graphdiyne (GDY) was a novel flat material with sp and sp² hybridized carbon atoms. It exhibited good biocompatibility. The application of GDY in PEC immunosensor was very limited. Thus, a novel photoelectrochemical sensor for the sensitive detection of prostate specific antigen (PSA) was proposed by using GDY oxide (GDYO) conjugated with horseradish peroxidase (HRP) and secondary antibody for photocurrent signal inhibition. GDYO was prepared by oxidation of honeycomb-like nanotubes composed of numerous GDY nanosheets. It showed high loading capacity for HRP and the catalytic activity of HRP could be remained. With reduced graphene oxide-CdS (rGO-CdS) as photoelectrochemical sensing platform, a sandwich-type photoelectrochemical (PEC) immunosensor was thus fabricated. The immunosensor presented a wide linear concentration range of 10 fg mL⁻¹–20.0 ng mL⁻¹ with a detection limit (LOD) of 3.5 fg mL⁻¹. Moreover, the PEC immunosensor displayed ideal reproducibility, stability, and selectivity, which was a promising platform for the detection of other important tumor targets.     

Near-infrared Responsive Photoelectrochemical Biosensors

Near-infrared (NIR) light-driven photoelectrochemical (PEC) sensing is a highly promising analytical technique, especially for in situ bioanalysis, due to the deep penetration capability and minimal invasiveness of NIR light. In this mini review, we provide a brief overview of recently developed NIR PEC sensors, focusing on NIR light-responsive materials and the representative applications of this type of PEC sensor. Future perspectives for NIR PEC sensors are also described.     

Zn–porphyrin metal–organic framework–based photoelectrochemical enzymatic biosensor for hypoxanthine

Journal of Solid State Electrochemistry - The exploitation of metal–organic frameworks as photoactive materials for photoelectrochemical (PEC) sensing is of great importance because of their...     

Flame spray pyrolysis for the one-step fabrication of transition metal oxide films: Recent progress in electrochemical and photoelectrochemical water splitting

Developing large scale deposition techniques to fabricate thin porous films with suitable opto-electro nic properties for water catalysis is a necessity to mitigate climate change and have a sustainable environment.In this review,flame spray pyrolysis(FSP)technique,a rapid and scalable methodology to synthesize nanostructured transitional metal oxide films with designed functionalities,is firstly introduced.Furthermore,applications in electrochemical(EC)and photoelectrochemical(PEC)water splitting for the production of hydrogen fuel is also presented.The high combustion temperature and the aggregation of flame aerosol ensure that the FSP-made films possess high crystallinity,tunable porosity and high surface areas,making this method suitable either as catalysts for EC water splitting or as efficient semiconductor materials for PEC water splitting.Finally,a perspective on the next generation FSP engineered films with potential applications in energy storage and conversion is described.     

Antioxidant Activties of Stable Nitroxyl Radicals in Oil

The nitroxides belong to stable free radicals which are widely used for spin labeling in ESR technique. Recently studies showed that nitroxide stable radicals demonstrate effective antioxidative activity in various biological systems ranging from molecular, cellular and laboratory animal level^[l]. But up to now there isn't reported about antioxidant activities on oil of nitroxides. Because antioxidants on oil play a very important role in the food industry^[2], therefore we want to utilize nitroxides as more effective antioxidants in the food industry.     

Functionalized graphene quantum dots loaded with free radicals combined with liquid chromatography and tandem mass spectrometry to screen radical scavenging natural antioxidants from Licorice and Scutellariae

A novel screening method was developed for the detection and identification of radical scavenging natural antioxidants based on a free radical reaction combined with liquid chromatography with tandem mass spectrometry. Functionalized graphene quantum dots were prepared for loading free radicals in the complex screening system. The detection was performed with and without a preliminary exposure of the samples to specific free radicals on the functionalized graphene quantum dots, which can facilitate charge transfer between free radicals and antioxidants. The difference in chromatographic peak areas was used to identify potential antioxidants. This is a novel approach to simultaneously evaluate the antioxidant power of a component versus a free radical, and to identify it in a vegetal matrix. The structures of the antioxidants in the samples were identified using tandem mass spectrometry and comparison with standards. Fourteen compounds were found to possess potential antioxidant activity, and their free radical scavenging capacities were investigated. The order of scavenging capacity of 14 compounds was compared according to their free radical scavenging rate. 4′,5,6,7‐Tetrahydroxyflavone (radical scavenging rate: 0.05253 mL mg^?1 s^?1) showed the strongest capability for scavenging free radicals.     

Spatially Separated Photosystem II and a Silicon Photoelectrochemical Cell for Overall Water Splitting: A Natural–Artificial Photosynthetic Hybrid

Integrating natural and artificial photosynthetic platforms is an important approach to developing solar‐driven hybrid systems with exceptional function over the individual components. A natural–artificial photosynthetic hybrid platform is formed by wiring photosystem II (PSII) and a platinum‐decorated silicon photoelectrochemical (PEC) cell in a tandem manner based on a photocatalytic‐PEC Z‐scheme design. Although the individual components cannot achieve overall water splitting, the hybrid platform demonstrated the capability of unassisted solar‐driven overall water splitting. Moreover, H₂ and O₂ evolution can be separated in this system, which is ascribed to the functionality afforded by the unconventional Z‐scheme design. Furthermore, the tandem configuration and the spatial separation between PSII and artificial components provide more opportunities to develop efficient natural–artificial hybrid photosynthesis systems.