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引用次数: 45
摘要
纳米颗粒具有较大的表面积和体积比,不同于相同成分的大颗粒。金属氧化物纳米颗粒由于其抗菌特性、抗微生物、药物传递、抗生素和免疫层析、组织/肿瘤图像、抗癌活性和临床标本中病原体的鉴定而受到医学界的广泛关注[1-2]。TiO2是金属氧化物中最有前途的材料。在n型半导体中,二氧化钛因其光吸收、表面吸附和电荷输运等特性而成为最重要的半导体材料。TiO2具有锐钛矿、金红石、蓝铜矿三种晶体结构。在三个阶段中,锐钛矿相因其抗菌性能在光伏电池(Fujima and Donald 2000)、光催化剂以及更多的应用中得到了应用。
Synthesis and Characterization of Tio2 Nanoparticles Using Cynodon Dactylon Leaf Extract for Antibacterial and Anticancer (A549 Cell Lines) Activity
The nano particles are different from the large particles of the same composition because of their large surface area and volume ratio. The metal oxide nanoparticles have received considerable attention on medical line due to their antibacterial properties, resistance against microbes, drug delivery, antibiotics and immune chromatography, tissue / tumour image, anticancer activities and identification of pathogens in clinical specimens [1-2]. TiO2 is the most promising material in the group of the metal oxides. In n type semiconductor, titanium dioxide is a most important semiconductor due to its light absorption, surface adsorption and charge transport properties [3]. TiO2 has three crystal structures namely anatase, rutile, and brookite. In three phases, the anatase phase has got applications in photo-voltaic cells (Fujima and Donald 2000), photo catalysts and more applications for its antimicrobial properties [4].
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