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991.
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流动注射—在线分离富集与原子光谱检测联用技术 总被引:7,自引:0,他引:7
现代分析化学发展的重要特征之一是分析方法从离线/手动操作向在线/自动操作方向转化。流动注射(FI)作为非均匀和非平衡状态下的溶液处理和微量进样技术,是实现上述转化的有力工具。FI可与不同的分离富集和检测手段结合,具有很强适应性和实用性。在众多联用技术中,FI—在线分离富集与原子光谱检测联用技术特别受到分析化学界的青睐。这种联用不仅可以克服常规离线操作费时、污染环境和试样/试剂消耗大的缺点,而且可大大提高分析效率,显著改善分析方法的灵敏度与选择性,进行多种成分同时检测(对ICP—AES,DCP—AES 相似文献
994.
He Xu Liping Zeng Sujie Xing Yuezhong Xian Guoyue Shi Litong Jin 《Electroanalysis》2008,20(24):2655-2662
Multiwall carbon nanotubes were dispersed in Nafion (MWCNTs‐NA) solution and used in combination with bismuth (MWCNTs‐NA/Bi) for fabricating composite sensors to determine trace Pb(II) and Cd(II) by differential pulse anodic stripping voltammetry (DPASV). The electrochemical properties of the MWCNTs‐NA/Bi composites film modified glassy carbon electrode (GCE) were evaluated. The synergistic effect of MWCNTs and bismuth composite film was obtained for Pb(II) and Cd(II) detection with improved sensitivity and reproducibility. Linear calibration curves ranged from 0.05 to 100 μg/L for Pb(II) and 0.08 to 100 μg/L for Cd(II). The determination limits (S/N=3) were 25 ng/L for Pb and 40 ng/L for Cd, which compared favorably with previously reported methods in the area of electrochemical Pb(II) and Cd(II) detection. The MWCNTs‐NA/Bi composite film electrodes were successfully applied to determine Pb(II) and Cd(II) in real sample, and the results of the present method agreed well with those of atomic absorption spectroscopy. 相似文献
995.
高立体选择性地合成β-甘露糖苷和β-氨基甘露糖苷是糖化学家所面临的富有挑战性的问题。本文综述了合成β-甘露糖苷和β-氨基甘露糖苷的方法,侧重讨论各种方法在构建β-糖苷键时所具有的优势及其应用。 相似文献
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对氯丙嗪(CPZ)在离子液体BMIMPF6修饰玻碳电极(BMIMPF6/GC)上的伏安行为进行了研究.发现CPZ在该修饰电极上于065V左右产生氧化还原峰,峰的可逆性比玻碳电极(GC)有较大改进,其电极过程为吸附控制.在0050 mol/L磷酸缓冲溶液(pH 4)中,CPZ在BMIMPF6/GC上的氧化峰的峰电流约为GC上的2倍.在优化实验条件的基础上,采用微分脉冲伏安法对不同浓度CPZ溶液进行了测定.结果表明,CPZ在BMIMPF6/GC上的氧化峰电流与浓度在56×10-9~30 ×10-5mol/L范围内有线性关系.将此方法用于尿样的测定,其加入回收率为97%左右.用3种电极测定了CPZ的表观扩散系数,其大小为D(BMIMPF6/GC)>DOMIMBF6/GC)>D(GC),这与电极表面积变化及膜内扩散有一定关系. 相似文献
999.
Guifang Zeng Yining Liu Chunyan Gu Kai Zhang Yongling An Chuanliang Wei Jinkui Feng Jiangfeng Ni 《物理化学学报》2020,36(5):1905006-0
Lithium-ion batteries (LIBs) are widely used in cellphones, laptops, and electric cars owing to their high energy density and long operational lifetime. However, their further deployment in large-scale energy storage systems is restricted by the uneven distribution of lithium resources (~0.0017% (mass fraction, w) in the Earth's crust). Therefore, alternative energy storage systems composed of abundant elements are of urgent need. Recently, sodium-ion batteries (SIBs) have attracted significant attention and are considered to be a potential alternative for next-generation batteries owing to abundant sodium resources (~2.64% (w) of the Earth's crust), suitable potential (−2.71 V), and low cost. SIBs are similar to LIBs in terms of their physical and electrochemical properties. Previous studies have mainly focused on SIB storage materials, including hard carbon, alloys, and hexacyanoferrate, while the safety of SIBs remains largely unexplored. Similar to LIBs, the current electrolytes used in SIBs are mainly composed of flammable organic carbonate solvents (or ether solvents), sodium salts, and functional additives, which pose possible safety issues. Moreover, the chemical activity of sodium is much higher than that of lithium, leading to a higher risk of fire, thermal runaway, and explosion. To overcome this problem, herein we propose a fluorinated non-flammable electrolyte composed of 0.9 mol∙L−1 NaPF6 (sodium hexafluorophosphate) in an intermixture of di-(2, 2, 2 trifluoroethyl) carbonate (TFEC) and fluoroethylene carbonate (FEC) in a 7 : 3 ratio by volume. Its physical and electrochemical properties were studied by ionic conductivity, direct ignition, cyclic voltammetry, and charge/discharge measurements, demonstrating excellent flame-retarding ability and outstanding compatibility with sodium electrodes. The electrochemical tests showed that the Prussian blue cathode retained a capacity of 84 mAh∙g−1 over 50 cycles in the prepared electrolyte, in contrast to the rapid capacity degradation in a flammable conventional carbonate electrolyte (74 mAh∙g−1 with 57% capacity retention after 50 cycles). To test the practical application of the proposed electrolyte, a hard carbon anode was used and exhibited exceptional performance in this system. The enhancement mechanism was further verified by Fourier transform infrared (FTIR), X-ray diffraction (XRD), and scanning emission microscopy (SEM) investigations. Polycarbonate on the surface of the cathode played an important role for the studied electrolyte system. The polycarbonate may originate from FEC decomposition, which can enhance the ionic conductivity of the solid electrolyte interface (SEI) layer and reduce impedance. Hence, we believe that this proposed electrolyte may provide new opportunities for the design of robust and safe SIBs for next-generation applications. 相似文献
1000.
Lin Jiacheng Li Qianqian Zeng Xiaodong Chen Ziyang Ding Qihang Li Yang Zhou Hui Meng Xianli Chen Deliang Deng Zixin Hong Xuechuan Xiao Yuling 《中国科学:化学(英文版)》2020,63(6):766-770
Osteosarcoma is the most common primary malignant tumor of bone, particularly among children and adolescents. Advances in imaging, surgical techniques, and implants have dramatically reduced the need for amputation in the past three decades.Recently, in vivo fluorescence imaging in the second near-infrared window(NIR-II, 1,000–1,700 nm) shows impressive advantages of deeper tissue penetration and higher spatial resolution, which makes it a promising tool for the early diagnosis and post-operative observation of Osteosarcoma. To the best of our knowledge, this paper is the first time to develop a novel NIR-II fluorescence probe conjugated with an osteosarcoma targeted oligopeptide for molecular tumor imaging in a xenograft orthotopic osteosarcoma mouse model. 相似文献