有序介孔氮掺杂碳负载三氧化二铁的制备及其催化氧还原性能

制备了有序介孔氮掺杂碳负载三氧化铁,有效降低了氧还原的过电势。通过扫描电子显微镜、透射电子显微镜、氮气吸附-脱附测试、粉末X射线衍射、X射线光电子能谱、拉曼光谱等技术表征了所制备的催化剂的物理化学性质。此外,用旋转圆盘电极测试了其在碱性条件下对氧还原反应的催化活性和选择性。实验结果表明:氮气热解后铁以三氧化二铁的形式负载于有序介孔氮掺杂碳中,其比表面积达到755 cm^2·g^-1。拉曼和X射线光电子能谱结果表明,加入铁前驱体后所制备的催化剂石墨化程度有所提升、阻抗降低、导电性增加。在碱性条件下,Fe2O3@NC催化剂呈现出4电子氧还原反应,其起始电位(-0.01 V vs Ag/AgCl)和半波电位(-0.13 V vs Ag/AgCl)与商用20%Pt/C相当。此外,该催化剂具有较好的抗甲醇性能且其恒电压稳定性优于商用Pt/C。Fe2O3@NC催化剂用于锌-空电池放电测试,其放电功率可以达到88 mW·cm^-2,是商用Pt/C的1.29倍。     

Type I ‘Lighted Metal-free’ Photosensitizing Assemblies of Phenazine for Aerobic Oxidative Transformations

Highly photostable supramolecular photosensitizing ‘lighted metal-free’ assemblies of DPZ-Th have been developed which show strong absorption in the visible region and excellent electron transportation potential from donor to acceptor units. The as-prepared assemblies of DPZ-Th activate aerial oxygen to generate Type I reactive oxygen species (ROS) under visible-light irradiation in mixed aqueous media. Owing to these properties, the as-prepared DPZ-Th assemblies exhibit high photocatalytic activity in catalyzing the aerobic oxidative coupling of benzylamines and synthesis of quinazolines. Various spectroscopic studies support the participation of Type I reactive species in the reaction mechanism. The ‘pure’ oxygen environment was not needed for carrying out these transformations and all the reactions proceed very well under aerial conditions to furnish the desired products in high yields.     

Unusual electron charge density in carboxylic acid. 17O quadrupole coupling in cis-cyclobutane-1,2-dicarboxylic acid

The (17)O NQR frequencies have been measured in cis-cyclobutane-1,2-dicarboxylic acid and the quadrupole coupling tensors have been determined at various temperatures. Two O···H oxygen positions and two O-H oxygen positions are observed, showing the presence of two different types of O-H···O hydrogen bonds in the unit cell. The quadrupole coupling constants at the O-H oxygen positions are approximately 30% lower than the lowest quadrupole coupling constants experimentally observed at the C-O-H positions in other carboxylic acids with either ordered or disordered hydrogen bonds. The O-H distances have been calculated from the (17)O-(1)H dipole-dipole interaction at the O-H oxygen positions. The obtained values are longer than the O-H distances usually found in O-H···O hydrogen bonds with comparable O···O distance, in agreement with the proposed proton exchange O-H···O ? O···H-O, which partially averages the dipole-dipole interaction. The energy difference of the two proton configurations, O-H···O and O···H-O, is calculated from the O-H distances determined by NQR. The temperature dependence of the (17)O quadrupole coupling tensors at the (17)O···H-O oxygen positions is analyzed in the model of proton exchange and the energy differences of the two proton configurations obtained by this analysis agree with the values obtained from the O-H distances. The quadrupole coupling tensors are analyzed in a model based on the Townes and Dailey model. The model shows that the population of an oxygen lone pair orbital is at this oxygen position reduced from 2 to approximately 1.3. The electron electric charge is most probably transferred to the oxygen σ and π electron orbitals. This may be associated with the structure of the cyclobutane ring, where the X-ray data show the presence of two unusually short C-C bonds.     

Modeling the mechanism of the glutathione peroxidase mimic ebselen

Ebselen (1), the quintessential mimic of the antioxidant selenoenzyme glutathione peroxidase (GPx), is a potential chemopreventative for various diseases associated with oxidative stress. Density-functional theory (DFT) and solvent-assisted proton exchange (SAPE) are used to model the complex mechanism for scavenging of reactive oxygen species by 1. SAPE is a microsolvation method designed to approximate the role of bulk solvent in chemical processes involving proton transfer. Consistent with experimental studies, SAPE studies predict the reaction of 1 with thiol (RSH) to form a selenenyl sulfide 2 to be preferred under most conditions, with an alternate pathway through a selenoxide 3 possible at high reactive oxygen species (ROS) concentrations ([ROS] ? [RSH]). The reduction of 2 to the selenol 4, known to be rate-determining in the protein, has a high SAPE activation barrier due to a strong Se···O interaction which reduces the electrophilicity of the sulfur center of the -SeS- bond of 2. Thiols, such as dithiols and peptide-based thiols, are expected to overcome this barrier through structural features that increase the probability of attack at this sulfur. Thus, in vivo, the GPx-like pathway is the most likely mechanism for 1 under most circumstances, except, perhaps, under extreme oxidative stress where initial oxidation to 3 could compete with formation of 2. Simple thiols, used in various in vitro studies, are predicted by SAPE modeling to proceed through oxidation of 2 to a seleninyl sulfide intermediate. Overall, SAPE modeling provides a realistic interpretation of the redox mechanism of 1 and holds promise for further exploration of complex aqueous-phase reaction mechanisms.     

电子受体H2O2和O2对TiO2光催化甘油氧化反应中活性氧物种1O2和OH?的影响

在室温条件下研究了电子受体H2O2和O2对TiO2光催化甘油氧化反应中的活性氧物种、甘油转化率和产物分布的影响。当在紫外光辐射和TiO2的体系中不存在电子受体时,只产生HO?自由基。而当在此体系中有电子受体存在时,则产生了HO?自由基和1O2,但它们的浓度不同,这取决于电子受体的浓度。以H2O2为电子受体时甘油转化率的提高大于以O2为电子受体时。甘油转化生成有价值产物的类型则与体系中的活性氧物种浓度有关。     

溶剂及电解质盐对氧在有机电解液体系中电化学还原的影响

应用线性循环伏安(CV)法研究了氧在几种有机电解液体系中的电化学还原过程.实验表明,氧在四丁基六氟磷酸铵(TBAPF6)/乙腈(MeCN)或TBAPF6/丙烯碳酸酯(PC)电解液中,均首先发生1电子还原生成O2-的过程,但电位回扫还原过程的可逆性却表现出很大差异:在乙腈溶液中反应可逆性较好,CV曲线表现出一对可逆的氧化还原峰,而在丙烯碳酸酯为溶剂的电解液中,氧还原过程可逆性差,不仅初始氧还原电流显著减小,而且表征O2-氧化的电流峰几乎消失.此外,电解质盐对氧还原过程也具有很大影响,在六氟磷酸锂(LiPF6)/乙腈电解液中,氧的还原可逆性较差.     

Photodynamic action of bis(tertiary arsine (diars)) metal(III) complexes trans-[M(diars)2X2] (X = Cl, Br, I); M = Co, Cr, Rh: Optical and EPR spin-trapping studies

Photodynamic properties of series of metal complexes having the general formula [M(diars)₂X₂]ClO₄ or BF₄ where M = Co³⁺, Cr³⁺, Rh³⁺; X = Cl, Br, I, diars = o-phenylene bis(dimethylarsine) are studied. Photogeneration of singlet oxygen is monitored by both optical and EPR methods. In comparison with rose bengal ((¹O₂) for RB = 0.76), singlet oxygen generating efficiencies of these complexes are determined. Rate of N,N-dimethyl-4-nitrosoaniline (RNO) bleaching is found to be retarded by specific ¹O₂ quencher NaN₃, confirming the involvement of ¹O₂ as an active intermediate. Photolysis of these complexes in the presence of spin trap 5,5-dimethyl-1-pyrroline-N-oxide (DMPO) generates 12-line EPR spectra, characteristic of O₂⁻ adduct. Photogeneration of O₂⁻ is also monitored by optical spectroscopy using superoxide dismutase (SOD) inhibitable cytochrome c reduction assay. The results indicate that the [Co(diars)₂Br₂]ClO₄ complex possesses high ability to generate reactive oxygen species (ROS). Both Type I and II paths are involved in the photosensitisation of the metal complexes. The antimicrobial activity of the complexes against selected bacteria is estimated. The relationship between the enzymatic production of ROS and antimicrobial activity of the complexes is examined and a good correlation between two factors is found. The [CoBr₂(diars)₂]ClO₄ complex investigated in this study effect photo cleavage of the plasmid DNA (pUC18).     

Capillary electrophoretic studies on the photogenotoxic potential of pharmaceutical substances

Drug-induced phototoxic skin responses, including photoirritation, photoallergy and photogenotoxicity, are identified as adverse reactions. In this study, we attempted to develop effective analytical tools to predict the photogenotoxic potential of pharmaceutical substances with the use of pBR322 DNA, a plasmid DNA. pBR322 DNA was irradiated with simulated solar light in the presence of photosensitizers, and its structural conversion was assessed by agarose gel electrophoresis (AGE), transmission electron microscopy (TEM) and capillary gel electrophoresis (CGE). The generation of reactive oxygen species (ROS) from photoirradiated photosensitizers was also assessed by spectrophotometrical determination. Concomitant ultraviolet (UV) exposure of pBR322 DNA and photosensitizers resulted in significant oxidative damage to the DNA, as evidenced by AGE, TEM and CGE data, indicating a structural transition from supercoiled form to open circular form. Photosensitizer-induced DNA damage was attenuated by the addition of radical scavengers, especially sodium azide, a typical scavenger of singlet oxygen (1 O2), and enhanced by the addition of deuterium water, an enhancer of the life time of 1 O2. These data, taken together with the results of the ROS assay, suggest that singlet oxygen might act as a major toxic species in quinine-induced photogenotoxicity. The structural analysis of plasmid DNA by CGE after exposure to UVA/B in the presence of photosensitizers could be automated, allowing easy, fast and highly reliable prediction for the photogenotoxic potential of a large number of drug candidates.     

High-light induced superoxide radical formation in cytochrome b₆f complex from Bryopsis corticulans as detected by EPR spectroscopy

The generation of superoxide radical (O?·?) in Cyt b?f of Bryopsis corticulans under high light illumination was studied using electron paramagnetic resonance (EPR) spectroscopy. This could be evidenced by the addition of SOD which specifically reacted with O?·?. The generation of O?·? was lost in the absence of oxygen and was found to be suppressed in the presence of NaN? and be scavenged by extraneous antioxidants such as ascorbate, β-carotene and glutathione which could also scavenged 1O?*. These results indicated that O?·? which produced under high light illumination in Cyt b?f of B. corticulans might rise from a reaction which 1O?* could participated in. Also the photo-protection mechanism to Cyt b?f complex by antioxidants which might contain in thylakoid was speculated.     

CoBx/Co3O4电催化剂的制备及其氧析出性能

采用NaBH4溶液处理经水热、热处理步骤制得Co3O4纳米棒,得到表面富含氧空位以及无定型CoBx的Co3O4(CoBx/Co3O4)氧析出(OER)电催化剂。利用X射线衍射(XRD)、场发射扫描电镜(FESEM)、透射电镜(TEM)、X射线光电子能谱仪(XPS)等技术表征了催化剂的物相、微观形貌、元素组成以及表面化学键结构等。通过电化学工作站测试了电极材料的OER活性、稳定性、电化学阻抗等。结果表明,经NaBH4处理后,Co3O4表面高价态Co被还原至低价态Co,最终其表面有无定型CoBx的生成,并含有大量氧空位,有效提升了OER性能。在1.0 mol·L^-1 KOH电解质溶液中,达到10 mA·cm^-2的电流密度时,CoBx/Co3O4所需的过电位由Co3O4的346 mV降至298 mV。     

Photo induced antibacterial activity of CeO2/GO against wound pathogens

Infections are the main cause for delayed wound healing. Graphene oxide (GO) and cerium oxide nanoparticles are used for many biomedical applications because of their biocompatibility and therapeutic property. Cerium Oxide (CeO₂)/Graphene Oxide (GO) nanocomposite was synthesized in this work. It shows good antimicrobial property against wound pathogens. The aggregation of CeO₂ particles on GO results in the generation of reactive oxygen species (ROS) and inhibits microbial growth. The synthesized nanocomposites were analysed by X-ray diffraction, Transmission electron microscopy, Raman Spectroscopy, UV–vis diffuse reflectance spectroscopy and Fourier transformation-IR spectroscopy. The antimicrobial activity of CeO₂/GO nanocomposite was tested against Escherichia coli (E. coli), Pseudomonas aeruginosa (P. aeruginosa) Staphylococcus aureus (S. aureus) and Salmonella typhi (S. typhi). Well diffusion method, growth curve studies, bio film inhibition studies and colony count studies were done in both presence and absence of visible light. The mechanistic investigation was done by the determination of reactive oxygen species (ROS), Lactate dehydrogenase leakage (LDH) assay and DNA fragmentation assay.     

DNA cleavage activity of Fe(II)N4Py under photo irradiation in the presence of 1,8-naphthalimide and 9-aminoacridine: unexpected effects of reactive oxygen species scavengers

The DNA cleavage activity of the iron(II) complex of the ligand N,N-bis(2-pyridylmethyl)-N-bis(2-pyridyl)methylamine (N4Py) was investigated in the presence of the chromophores 1,8-naphthalimide (NI) and 9-aminoacridine (AA) under photo irradiation at 355 and 400.8 nm and compared to the activity of the complex without the chromophores. Whereas in most cases no synergistic effect of the added chromophores on DNA cleavage efficiency was observed, it was found that for Fe(II)N4Py, in combination with NI under irradiation at 355 nm, the DNA cleavage activity was increased. Surprisingly, it was found that the addition of reactive oxygen species (ROS) scavengers gave rise to significantly increased DNA cleavage efficiency, which is a highly counterintuitive observation since ROS are needed to achieve DNA cleavage. A hypothesis is put forward to explain, at least partly, these results. It is proposed that the addition of scavengers inhibits quenching of (3)NI*, thus making photo-induced electron transfer between (3)NI* and Fe(III)N4Py more efficient. This results in reduction of Fe(III)N4Py to Fe(II)N4Py, which can then react with ROS giving rise to DNA cleavage. Hence the role of the scavengers is to maintain a close to optimal concentration of ROS. The present study serves as an illustration of the care that needs to be exercised in interpreting the results of experiments using standard ROS scavengers, since especially in complex systems such as presented here they can give rise to unexpected phenomena. In the presence of 1,8-naphthalimide or 9-aminoacridine, ROS scavengers can increase the DNA cleavage efficiency of Fe(II)N4Py complex under photo irradiation.     

Bioinspired Single-Atom Sites Enable Efficient Oxygen Activation for Switching Anodic/Cathodic Electrochemiluminescence

Exploring advanced co-reaction accelerators with superior oxygen reduction activity that generate rich reactive oxygen species (ROS) has attracted great attention in boosting luminol-O₂ electrochemiluminescence (ECL). However, tuning accelerators for efficient and selective catalytic O₂ activation to switch anodic/cathodic ECL is very challenging. Herein, we report that enzyme-inspired Fe-based single-atom catalysts with axial N/C coordination structures (FeN₅, FeN₄© SACs) can generate specific ROS for cathodic/anodic ECL conversion. Mechanistic studies reveal that FeN₅ sites prefer to produce highly active hydroxyl radicals and afford direct cathodic luminescence by promoting the cleavage of O−O bonds through N-induced electron redistribution. In contrast, FeN₄© sites tend to produce superoxide radicals, resulting in inefficient anodic ECL. Benefiting from the enhanced cathodic ECL, FeN₅ SAC-based immunosensor was constructed for the sensitive detection of cancer biomarkers.     

Aqueous extracts of the edible Gracilaria tenuistipitata are protective against H₂O₂-induced DNA damage, growth inhibition, and cell cycle arrest

Potential antioxidant properties of an aqueous extract of the edible red seaweed Gracilaria tenuistipitata (AEGT) against oxidative DNA damage were evaluated. The AEGT revealed several antioxidant molecules, including phenolics, flavonoids and ascorbic acid. In a cell-free assay, the extract exhibited 1,1-diphenyl-2-picrylhydrazyl (DPPH) radical scavenging activity that significantly reduced H?O?-induced plasmid DNA breaks in a dose-response manner (P < 0.001). The AEGT also suppressed H?O?-induced oxidative DNA damage in H1299 cells by reducing the percentage of damaged DNA in a dose-response manner (P < 0.001) as measured by a modified alkaline comet-nuclear extract (comet-NE) assay. The MTT assay results showed that AEGT confers significant protection against H?O?-induced cytotoxicity and that AEGT itself is not cytotoxic (P < 0.001). Moreover, H?O?-induced cell cycle G2/M arrest was significantly released when cells were co-treated with different concentrations of AEGT (P < 0.001). Taken together, these findings suggest that edible red algae Gracilaria water extract can prevent H?O?-induced oxidative DNA damage and its related cellular responses.     

烧绿石结构Y2-xMgxRu2O7-δ(x=0.05、0.1、0.15)的制备及其OER催化活性

采用溶胶-凝胶法制备系列的镁掺杂Y2-xMgxRu2O7-δ(YMRO?x,x=0.05、0.1、0.15)催化剂,通过X射线光电子能谱对其进行价态分析发现,采用小离子半径的Mg^2+取代烧绿石结构中处于A位的部分Y^3+,进一步增加了烧绿石结构中氧缺陷数量,也引发了部分Ru^4+转变为Ru^5+,释放电子到表面,促进了氧析出反应(OER)。其中YMRO?0.1催化剂的含氧缺陷浓度最高,其催化活性最高。在达到10 mA·cm^-2电流密度时,相比于RuO2(358 mV)、Y2Ru2O7-δ(294 mV),YMRO?0.1仅需施加265 mV过电位并且其Tafel斜率相对于RuO2(88 mV·dec^-1)和Y2Ru2O7-δ(64 mV·dec^-1)仅为45 mV·dec^-1。此外,由于氧空位增多,即活性位点增多,降低了自由基从金属位点脱附的吉布斯自由能,促进了OER催化性能。第一性原理表明,替位原子MgY与氧空位形成复合体,可以降低氧空位形成能,同时随着Mg^2+引入,带隙变小,电荷迁移能也随之变小,进而可以得到更高的催化活性。     

Light effect and reactive oxygen species in the action of ciprofloxacin on Staphylococcus aureus

Oxygen consumption by Staphylococcus aureus ATCC 29213 sensitive to ciprofloxacin was determined with an oxygen selective electrode. Increase in the O(2) consumption was observed with 0.45 micromL(-1) ciprofloxacin while higher concentrations gave rise to a reduction of O(2) consumption. Resistant S. aureus strain did not show increase of O(2) consumption in presence of ciprofloxacin. Nitro Blue Tetrazolium assay showed that production of reactive oxygen species (ROS) increased intracellularly in sensitive bacteria incubated with this antibiotic. The exposition to UV light (360 nm) augmented the intracellular oxidative stress of S. aureus and provoked increment of ROS in extracellular media. Generation of singlet oxygen O(2) ((1)Delta(g)) in S. aureus was measured by means of oxidation of methionine. The absorbance of methionine was monitored at 215 nm and a clear decrease was detected when sensitive S. aureus was stressed with ciprofloxacin. Sodium azide and 2,5-dimethylfuran were used to reinforce the evidence of O(2) ((1)Delta(g)) generation during oxidative stress. Assays with methionine and 2,5-dimethylfuran demonstrated that resistant S. aureus did not increase the production of O(2) ((1)Delta(g)) in the presence of antibiotic. DNA oxidation was investigated in presence of O(2) ((1)Delta(g)) generated by laser excitation of perinaphthenone and subsequent energy transfer. Deactivation of O(2) ((1)Delta(g)) by reaction with DNA of sensitive and resistant bacteria was observed. According to the results obtained, the effect of ciprofloxacin in S. aureus led to an increment of O(2) ((1)Delta(g)) generating oxidative stress in the bacteria.     

Mechanism of anti-inflammatory action of liquorice extract and glycyrrhizin

The antiradical activity, protective effect against lipid peroxidation of liposomal membrane, and inhibitory effect on whole blood reactive oxygen species (ROS) liberation of Glycyrrhiza glabra crude extract and glycyrrhizin, its major compound, were assessed. The liquorice extract showed significant activity in all the three assay systems used in a dose dependent manner. It displayed remarkable reactivity with free stable 1,1'-diphenyl-2-picrylhydrazyl (DPPH) radical, inhibitory efficacy in peroxidatively damaged unilamellar dioleoyl phosphatidylcholine (DOPC) liposomes, and inhibition of ROS chemiluminescence, generated by whole blood, induced by both receptor-bypassing stimuli (PMA) and receptor operating stimuli (Opz) in the ranking order of stimuli PMA> Opz. These activities may be attributed to phenolic antioxidants involving isoflavan derivatives, coumarins and chalcones. Nonetheless, triterpene saponin glycyrrhizin exhibited no efficacy in the system of DPPH reaction and peroxidation of liposomal membrane, and negligible inhibition of chemiluminescence generated by inflammatory cells. These results indicate that the mechanism of anti-inflammatory effect of glycyrrhizin most probably does not involve ROS and this major constituent is not responsible for the inhibition effects of liquorice extract on neutrophil functions.     

Antibacterial activity of anthraquinone derivatives from Heterophyllaea pustulata (Rubiaceae)

Photosensitizing anthraquinones isolated from Heterophyllaea pustulata Hook f. (Rubiaceae), namely soranjidiol, rubiadin, damnacanthal and 5,5'-bisoranjidiol, showed antibacterial activity (bacteriostatic/bactericide) on Staphylococcus aureus. The mechanism of action seems to involve an increase in the levels of superoxide anion (O(2)(·-)) and/or singlet molecular oxygen ((1)O(2)). Moreover, the effect of actinic irradiation as a boosting agent for the production of both reactive species of oxygen as well as its influence on antibacterial activity was assessed. The routine susceptibility assay (minimum inhibitory concentration determination) was carried out by means of the broth macrodilution method. Bactericide activity was determined counting the colony-forming units per milliliter (cfu/mL) in plate. The O(2)(·-) production was determined by means of an indirect photobiological assay (Nitroblue Tetrazolium test), and the production of (1)O(2) was followed using an indirect steady-state method, with methionine as the (1)O(2) chemical quencher.     

Synthesis, primary photophysical and antibacterial properties of naphthyl ester cinoxacin and nalidixic acid derivatives

We have synthesized two naphthyl ester quinolone derivates and determined their ability to generate reactive oxygen species (ROS) such as (1)O(2), ()OH, H(2)O(2) upon photolysis with UV-A light. The ability of cinoxacin (1) and nalidixic acid (2), and their naphthyl ester derivatives (3 and 4) to generate a dose-dependent amount of singlet oxygen and ROS (()(-)O(2), ()OH) in cell-free systems was detected by histidine assay and by luminol-enhanced chemiluminescence (LCL), respectively. Their electronic absorption and emission spectra were quantified and their photostability was determined. Their tendency to generate peroxidic derivative species showed the following order: 3>4; in contrast, their ability to generate singlet oxygen was 4>3 and these were better sensitizers than their parent quinolones 1 and 2. The antibacterial activity in darkness and under irradiation of compounds 3 and 4 was tested on Escherichia coli and compared with that of their parent compounds. An enhanced antibacterial activity by irradiation of the naphthyl esters of cinoxacin and nalidixic acid on E. coli was observed.     

Acetoaminophen-induced accumulation of 8-oxodeoxyguanosine through reduction of Ogg1 DNA repair enzyme in C6 glioma cells

Large doses of acetaminophen (APAP) could cause oxidative stress and tissue damage through production of reactive oxygen/nitrogen (ROS/RNS) species and quinone metabolites of APAP. Although ROS/RNS are known to modify DNA, the effect of APAP on DNA modifications has not been studied systematically. In this study, we investigate whether large doses of APAP can modify the nuclear DNA in C6 glioma cells used as a model system, because these cells contain cytochrome p450-related enzymes responsible for APAP metabolism and subsequent toxicity (Geng and Strobel, 1995). Our results revealed that APAP produced ROS and significantly elevated the 8-oxo- deoxyguanosine (8-oxodG) levels in the nucleus of C6 glioma cells in a time and concentration dependent manner. APAP significantly reduced the 8- oxodG incision activity in the nucleus by decreasing the activity and content of a DNA repair enzyme, Ogg1. These results indicate that APAP in large doses can increase the 8-oxodG level partly through significant reduction of Ogg1 DNA repair enzyme.