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纳秒级高压脉冲电场的生物医学应用是近年来新兴的交叉学科研究领域,相比于微秒和毫秒级脉冲电场,高压纳秒脉冲电场不仅能够导致细胞膜结构极化和介电击穿,产生膜电穿孔,还可以穿透至细胞内部,引发诸如细胞骨架解聚、胞内钙离子释放及线粒体膜电位耗散等细胞器生物电效应,吸引了学术界的广泛关注.本文首先介绍高压纳秒脉冲电场及其细胞器生物电作用的物理模型;然后对高压纳秒脉冲电场与细胞骨架、线粒体、内质网、细胞核等亚细胞结构的相互作用研究进行综述和总结;强调高压纳秒脉冲电场的细胞器作用与细胞死亡、细胞间通信等生物效应之间的联系;最后,凝练当前高压纳秒脉冲电场在生物医学研究中的关键技术问题,并对未来潜在的研究方向进行展望. 相似文献
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A novel Ni(II) coordination polymer [Ni(dtba)(4,4′-bpy)] (1, H2dtba = 2,2′-dithio- bisbenzoic acid, 4,4′-bpy = 4,4′-bipyridine) has been synthesized by H2dtba and Ni(CH3COO)2·4H2O with exo-bidentate rigid ligand 4,4′-bpy by using hydrothermal method, and its structure was determined by single-crystal X-ray diffraction. X-ray crystal structure analysis reveals that complex 1 crystallizes in monoclinic, space group Cc with a = 11.7624(9), b = 18.7933(19), c = 10.3071(11), β = 97.6510(10)°, V = 2258.2(4)3, Z = 4, C24H16N2NiO4S2, Mr = 519.22, Dc = 1.527 g/cm3, μ = 1.079 mm-1 and F(000) = 1064. The structure was solved by direct methods and refined to R = 0.0434 and wR = 0.1000 for 3281 observed reflections (I > 2σ(I)). The coordination environment of Ni(II) is a distorted octahedron, and a three-dimensional structure was formed with the coordination effect of dtba2- and 4,4′-bpy ligands. The topological analysis reveals that the whole framework of 1 is a 2-nodal net of (52.6)(53.64.72.8) topology. The thermal stability and XRD pattern of 1 were also investigated. 相似文献
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