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通过对129I加速器质谱(AMS)分析中影响敏度和准确度各种参数的研究,如靶电极制备、压样、靶样中辅助介质(Matrix)的选择及使用比例等,优化了用于3 MV加速器质谱仪的SO-110型离子源的条件参数,确定129I-AMS测量的最佳靶电极材料为Cu,最佳的辅助介质为Nb粉末,Nb与AgI样品的最佳体积比为3∶1。在此条件下可以获得稳定且持续的I-束流进行测量129I/127I原子比值,实验测得西安加速器质谱仪的129I/127I本底值为1.5210-14。 相似文献
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To meet the measurement demands on small-mass radiocarbon(carbon content at 10-6g level) which are becoming increasingly significant, Xi’an-AMS has made improvements to the existing method of sample loading and has upgraded the Cs sputter ion source from the original SO-110 model. In order to study the feasibility of small-mass samples in Xi’an-AMS and evaluate the radiocarbon sample preparation ability using existing routine systems of H2/Fe and Zn/Fe, the small-mass samples prepared by four different methods are tested. They are the mass division method, mass dilution method, H2/Fe reduction method and Zn/Fe reduction method. The results show that carbon mass above 25 μg can be prepared using the existing Zn/Fe system, but no less than 100 μg is required using the existing H2/Fe system, which can be improved. This indicates Xi’an-AMS are now able to analyze small-mass radiocarbon samples. 相似文献
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空心结构在能量转化和储存等重要应用方面,展现出了巨大的潜力. 为了进一步提高性能,根据物质的组成和结构,合理设计出更复杂的空心结构材料是非常必要的,但目前仍然存在相当大的挑战. 本文报导了一种以硅小球作为模板的高效方法,合成了新型的NiO@Co3O4空心多孔小球,其比表面积可达219.68 m2·g-1. NiO@Co3O4空心多孔小球的高比表面积有利于增强离子的扩散和提高活性物质的利用效率,并可防止纳米颗粒团聚. 测试结果表明,在5 mV·s-1的扫描速度下,所制备的NiO@Co3O4空心多孔小球的比电容值达1140.9 F·g-1,同时具有良好的循环稳定性,显示出该材料在超级电容器领域有较好的应用前景. 相似文献
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