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采用电弧放电法制备内嵌镧金属富勒烯的原灰,通过改变氦气压力及电流强度来提高内嵌镧金属富勒烯产率。原灰由1,2,4-三氯苯提取并回溶入甲苯后,利用分析型高相液相色谱(HPLC)对提取液中各富勒烯组分进行分析。通过分别衡量3种常见含镧金属富勒烯La@C2v-C82、La@Cs-C82和La2@C80与C84的相对峰面积比,探讨了氦气压力和电流强度等对3种金属富勒烯产率的影响。实验结果表明,氦气压力与电流强度共同决定了金属富勒烯的产率,在(1)低电流高氦气压、(2)中等电流中等氦气压、(3)高电流低氦气压的条件下都可以高产率地获得含镧金属富勒烯。此外,调整电流强度和氦气压力可以改变La@C2v-C82和La@Cs-C82的相对比例。例如,在电流为100、120 A或氦气压为20、35 kPa时,此前认为的"minor"异构体La@Cs-C82的含量甚至高于"major"异构体La@C2v-C82。我们还发现,降低电流强度或减小氦气压力可促进La2@C80的生成,这表明La2@C80与La@C82的形成过程可能是不同的。 相似文献
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采用电弧放电法制备内嵌镧金属富勒烯的原灰,通过改变氦气压力及电流强度来提高内嵌镧金属富勒烯产率。原灰由1,2,4-三氯苯提取并回溶入甲苯后,利用分析型高相液相色谱(HPLC)对提取液中各富勒烯组分进行分析。通过分别衡量3种常见含镧金属富勒烯La@C2v-C82、La@Cs-C82和La_2@C_(80)与C84的相对峰面积比,探讨了氦气压力和电流强度等对3种金属富勒烯产率的影响。实验结果表明,氦气压力与电流强度共同决定了金属富勒烯的产率,在(1)低电流高氦气压、(2)中等电流中等氦气压、(3)高电流低氦气压的条件下都可以高产率地获得含镧金属富勒烯。此外,调整电流强度和氦气压力可以改变La@C2v-C82和La@Cs-C82的相对比例。例如,在电流为100、120 A或氦气压为20、35 k Pa时,此前认为的"minor"异构体La@Cs-C82的含量甚至高于"major"异构体La@C2v-C82。还发现降低电流强度或减小氦气压力可促进La_2@C_(80)的生成,这表明La_2@C_(80)与La@C82的形成过程可能是不同的。 相似文献
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Layered Transition Metal Electride Hf2Se with Coexisting Two-Dimensional Anionic d-Electrons and Hf–Hf Metallic Bonds 下载免费PDF全文
Electrides are unique materials,whose anionic electrons are confined to interstitial voids,and they have broad potential applications in various areas.In contrast to the majority of inorganic electrides,in which the anionic electrons primarily consist of s-electrons of metals,electrides with anionic d-electrons are very rare.Based on first-principles electronic structure calculations,we predict that the layered transition metal chalcogenide Hf2Se is a novel electride candidate with anionic d-electrons.Our results indicate that the anionic electrons confined in the Hf6 octahedra vacancy between [Hf2Se] layers mainly come from the Hf-5 d orbitals.In addition,the anionic electrons coexist with the Hf-Hf multiple-center metallic bonds located in the center of neighboring Hf4 tetrahedra.The calculated work function(3.33 eV) for the(110) surface of Hf2Se is slightly smaller than that of Hf2S,which has recently been reported to exhibit good electrocatalytic performance.Our study of Hf2 Se will enrich the electride family,and promote further research into the physical properties and applications of electrides. 相似文献
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孙畅丁铭 《信息通信技术与政策》2023,(7):68-77
量子磁场测量技术可实现磁场测量灵敏度的跨越式发展,近年来成为世界各国及地区的研究热点。首先对量子磁场测量技术的发展进行了简述,然后介绍了量子磁场测量技术在生物磁场成像领域的应用,最后分析了量子磁场测量技术的两大重要应用方向(心磁图仪和脑磁图仪)及其产业现状和未来发展趋势。 相似文献