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61.
Hypochlorous acid (HOCl), one of the reactive oxygen species (ROS), is a key microbicidal agent which is used for natural defense. However, it is also linked to varieties of human diseases owing to the overproduction of HOCl. Much effort has been made to exploit selective fluorescent sensors for the detection of HOCl, but most of them have some disadvantages such as short excitation wavelength, low selectivity, and slow response and so on. These restrict the biological application of the probes. In this work, BR-O was designed and synthesized on the base of phenoxazine for the detection of HOCl. BR-O exhibited a violent fluorescence enhancement in the presence of HOCl, showing excellent selectivity and high sensitivity. More importantly, the probe BR-O was capable of detecting exogenous and endogenous HOCl in living cells. 相似文献
62.
The photodegradation (λ=365 nm) of the biomolecule vitamin B12, catalyzed by the photocatalyst TiO2 nanoparticles (NPs), has been investigated in aqueous suspension. The photodegradation process of vitamin B12 has been monitored by means of electronic absorption (Abs), Fourier‐transform infrared (FT‐IR), and resonance Raman (RR) spectroscopies, respectively. The results show that only under UV illumination in the presence of TiO2 is there effective degradation, and the photocatalytic degradation of vitamin B12 is strongly influenced by the amount of TiO2 NPs, the pH, and the initial concentration of vitamin B12. The photocatalytic reaction kinetics of vitamin B12 conforms to a Langmuir‐Hinshelwood isotherm model. Changes involving the three structural units of the carbon‐metal bond C–Co, the organic corrin macrocycle combined with the benzimidazole nucleotide, and the inorganic CN in the vitamin B12 molecule during the photocatalytic degradation are also discussed. 相似文献
63.
64.
Dr. Yanmei Shi Wei Du Dr. Wei Zhou Dr. Changhong Wang Shanshan Lu Dr. Siyu Lu Prof. Bin Zhang 《Angewandte Chemie (Weinheim an der Bergstrasse, Germany)》2020,132(50):22656-22660
Transition metal chalcogenides (TMCs) are efficient oxygen evolution reaction (OER) pre-electrocatalysts, and will in situ transform into metal (oxy)hydroxides under OER condition. However, the role of chalcogen is not fully elucidated after oxidation and severe leaching. Here we present the vital promotion of surface-adsorbed chalcogenates on the OER activity. Taking NiSe2 as an example, in situ Raman spectroscopy revealed the oxidation of Se-Se to selenites (SeO32−) then to selenates (SeO42−). Combining the severe Se leaching and the strong signal of selenates, it is assumed that the selenates are rich on the surface and play significant roles. As expected, adding selenites to the electrolyte of Ni(OH)2 dramatically enhance its OER activity. And sulfates also exhibit the similar effect, suggesting the promotion of surface-adsorbed chalcogenates on OER is universal. Our findings offer unique insight into the transformation mechanism of materials during electrolysis. 相似文献
65.
活性氧响应型抗肿瘤前药研究进展 总被引:1,自引:0,他引:1
活性氧(ROS)在机体信号转导和代谢中起着至关重要的作用,而ROS水平的升高与多种病变(癌症和炎症等)息息相关,基于肿瘤组织高水平ROS开发的肿瘤特异杀伤性前药策略,在增强药效和药物选择性方面提供了一种新颖的方法.本综述介绍了目前用于构建抗肿瘤前药的ROS敏感键:芳基硼酸/酯、烷基硫/硒醚、硫缩酮、过氧草酸酯、氨基丙烯酸酯、噻唑烷酮和α-酮酰胺等,并且详叙了基于这些敏感键设计的前药在抗肿瘤方向上的应用,同时探讨了现有ROS响应型前药系统的研究进展和局限性,并对未来的研究方向进行了展望. 相似文献
66.
Xiaowei Li Bin Wang Wenxuan Yin Jun Di Jiexiang Xia Wenshuai Zhu Huaming Li 《物理化学学报》2020,36(3):1902001-0
Photocatalytic technology can effectively solve the problem of increasingly serious water pollution, the core of which is the design and synthesis of highly efficient photocatalytic materials. Semiconductor photocatalysts are currently the most widely used photocatalysts. Among these is graphitic carbon nitride (g-C3N4), which has great potential in environment management and the development of new energy owing to its low cost, easy availability, unique band structure, and good thermal stability. However, the photocatalytic activity of g-C3N4 remains low because of problems such as wide bandgap, weakly absorb visible light, and the high recombination rate of photogenerated carriers. Among various modification strategies, doping modification is an effective and simple method used to improve the photocatalytic performance of materials. In this work, Cu/g-C3N4 photocatalysts were successfully prepared by incorporating Cu2+ into g-C3N4 to further optimize photocatalytic performance. At the same time, the structure, morphology, and optical and photoelectric properties of Cu/g-C3N4 photocatalysts were analyzed by X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), scanning electron microscopy, UV-Vis diffuse reflectance spectroscopy (DRS), and photoelectric tests. XRD and XPS were used to ensure that the prepared photocatalysts were Cu/g-C3N4 and the valence state of Cu was in the form of Cu2+. Under visible light irradiation, the photocatalytic activity of Cu/g-C3N4 and pure g-C3N4 photocatalysts were investigated in terms of the degradation of RhB and CIP by comparing the amount of introduced copper ions. The experimental results showed that the degradation ability of Cu/g-C3N4 photocatalysts was stronger than that of pure g-C3N4. The N2 adsorption-desorption isotherms of g-C3N4 and Cu/g-C3N4 demonstrated that the introduction of copper had little effect on the microstructure of g-C3N4. The small difference in specific surface area indicates that the enhanced photocatalytic activity may be attributed to the effective separation of photogenerated carriers. Therefore, the enhanced photocatalytic degradation of RhB and CIP over Cu/g-C3N4 may be due to the reduction of carrier recombination rate by copper. The photoelectric test showed that the incorporation of Cu2+ into g-C3N4 could reduce the electron-hole recombination rate of g-C3N4 and accelerate the separation of electron-hole pairs, thus enhancing the photocatalytic activity of Cu/g-C3N4. Free radical trapping experiments and electron spin resonance indicated that the synergistic effect of superoxide radicals (O2•−), hydroxyl radicals (•OH) and holes could increase the photocatalytic activity of Cu/g-C3N4 materials. 相似文献
67.
采用沉淀法制备了ZrO2,CeO2和Ce0.7Zr0.3O2载体,并用浸渍法制备负载型Pt催化剂。考察了500和900℃焙烧催化剂的丙烷完全氧化性能和水汽对丙烷氧化反应的影响。对于500℃焙烧的催化剂,催化剂的丙烷氧化活性顺序为:Pt/ZrO2-500>Pt/CeO2-500>Pt/Ce0.7Zr0.3O2-500;而经900℃焙烧的催化剂活性顺序为:Pt/ZrO2-900>Pt/Ce0.7Zr0.3O2-900>Pt/CeO2-900。反应气氛中水汽的存在对两种Pt/ZrO2催化剂的活性均有抑制作用(T50温度均提高了10~15℃);而对于Pt/CeO2-500催化剂有抑制作用(T50温度提高10℃),但对Pt/CeO2-900催化剂活性有促进作用(T50温度下降25℃);对于两种Pt/Ce0.7Zr0.3O2催化剂活性具有促进作用(T50温度均下降5~25℃)。表征结果表明催化剂的活性与其表面Pt物种价态密切相关,催化剂表面上Pt0物种有利于活性的提高。Pt/Ce0.7Zr0.3O2-500催化剂中只含有氧化态Pt物种(Pt^2+),而Pt/Ce0.7Zr0.3O2-900催化剂中则含有部分金属态Pt物种,因此其活性高于Pt/Ce0.7Zr0.3O2-500催化剂。 相似文献
68.
以不同结构的SiO_2为载体,采用传统浸渍法,合成3种负载型的Cu/SiO_2.使用X射线衍射(XRD)、 N_2的等温吸-脱附、紫外漫反射光谱(DR UV-vis)、 X射线电子能谱(XPS)、等离子原子发射光谱(ICP)和H_2的程序升温还原(H_2-TPR)方法对样品进行表征.考察了以H_2O_2为氧化剂,样品对苯酚直接羟基化合成苯二酚的催化性能.结果表明:具有介孔和MFI结构的二氧化硅(MS-1),稳定性强,有利于引入Cu物种在其孔内扩散及分布,形成更多的高分散CuO.一定反应条件下, Cu/MS-1催化活性最高,苯二酚的收率和选择性分别高达38.91%和81.5%. Cu/MS-1催化剂重复使用10次后,苯二酚的收率为37.64%,而Cu含量仅从2.5%变为2.1%,具有较强稳定性;高分散CuO是目标反应的主要活性物种. 相似文献
69.
对天然产物反式阿魏酸进行化学修饰,设计、合成了2种单核钌配合物[Ru(cym)(L)Cl]Cl (Ru-1)与[Ru(bpy)2(L)]Cl2(Ru-2)(cym=对伞花烃,bpy=2,2′-联吡啶,L=(E)-3-(4-hydroxy-3-methoxyphenyl)-N-((4′-methyl-(2,2′-bipyridin)-4-yl)methyl)acrylamide),通过核磁共振氢谱和碳谱、电喷雾质谱对配合物进行了结构表征。利用荧光、紫外-可见光谱等方法研究了配合物的溶解性和光学性质。配合物均具有良好的亲水性。Ru-2有良好的荧光性能,其发射波长达到近红外的631 nm,且可以在pH值为8~10之间实现响应。Ru-2还具有较高的单线态氧量子产率(Φ=0.70),有望成为一类高效的光敏剂。2种配合物都与CT-DNA发生嵌入作用(Kb分别为1.210×104和1.233×103L·mol-1);均与BSA有一个结合位点,使其荧光发生静态淬灭(Ka值分别为1.94×104,2.45×104)。 相似文献
70.
Dr. Zhe Liu Dr. Isolda Romero‐Canelón Bushra Qamar Jessica M. Hearn Dr. Abraha Habtemariam Dr. Nicolas P. E. Barry Dr. Ana M. Pizarro Dr. Guy J. Clarkson Prof. Dr. Peter J. Sadler 《Angewandte Chemie (International ed. in English)》2014,53(15):3941-3946
Platinum complexes are the most widely used anticancer drugs; however, new generations of agents are needed. The organoiridium(III) complex [(η5‐Cpxbiph)Ir(phpy)(Cl)] ( 1‐Cl ), which contains π‐bonded biphenyltetramethylcyclopentadienyl (Cpxbiph) and C^N‐chelated phenylpyridine (phpy) ligands, undergoes rapid hydrolysis of the chlorido ligand. In contrast, the pyridine complex [(η5‐Cpxbiph)Ir(phpy)(py)]+ ( 1‐py ) aquates slowly, and is more potent (in nanomolar amounts) than both 1‐Cl and cisplatin towards a wide range of cancer cells. The pyridine ligand protects 1‐py from rapid reaction with intracellular glutathione. The high potency of 1‐py correlates with its ability to increase substantially the level of reactive oxygen species (ROS) in cancer cells. The unprecedented ability of these iridium complexes to generate H2O2 by catalytic hydride transfer from the coenzyme NADH to oxygen is demonstrated. Such organoiridium complexes are promising as a new generation of anticancer drugs for effective oxidant therapy. 相似文献