利用分散在活性炭上的铂支撑铈储存氢气

Energy Storage Pub Date : 2024-08-26 DOI:10.1002/est2.70032
Anass Wahby, Zinab Abdelouahab-Reddam, Rachad El Mail, Joaquín Silvestre-Albero, Antonio Sepúlveda-Escribano
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引用次数: 0

摘要

在目前的工作中,碳材料被用于氢吸附过程,特别是在铈上掺杂铂的碳。制备的样品和起始碳的纹理表征结果表明存在微孔和介孔。另一方面,还观察到比面积与 CeO2 的负载量成反比。此外,在碳中掺入铂后,吸附氢的量会增加,而在碳中掺入分散在铈上的铂(2.2 毫克/克,25°C 和 30 巴)后,吸附氢的量会增加得更多。不过,铈的吸附能力有一个最佳值(10% wt),从该值开始吸附能力下降。氢气的温度编程解吸(TPD)结果表明,铂和 H2 之间具有很高的亲和力,通过在金属颗粒和 H2 之间建立化学键,增强了对 H2 的吸附过程。确切地说,分散在铈上的金属铂粒子的存在大大促进了碳上氢的溢出过程。这一点可以通过氢吸附-解吸等温线得到证实,该等温线表明化学吸附氢的完全解吸需要温度的升高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hydrogen Storage Using Platinum-Supported Ceria Dispersed on Activated Carbon

In the current work, carbon materials were used in the hydrogen adsorption process, specifically as carbons doped with platinum dispersed on ceria. The textural characterization results of the prepared samples and the starting carbon showed the presence of both micro- and mesopores. On the other hand, it has been observed that the specific areas were inversely proportional to the CeO2 loading. In addition, the amount of adsorbed hydrogen increased after doping the carbon with platinum and, even more, when the carbon was doped with Pt dispersed on ceria (2.2 mg/g at 25°C and 30 bar). However, there was a ceria optimum from which the adsorption capacity decreased (10% wt). The results of temperature-programmed desorption (TPD) of hydrogen indicated a high affinity between Pt and H2 that enhanced H2 adsorption process by establishing chemical bonds between the metal particles and H2. Precisely, the presence of metallic Pt particles dispersed on ceria considerably promotes the spillover process of hydrogen on carbon. This can be confirmed by hydrogen adsorption–desorption isotherms, that showed that complete desorption of chemisorbed hydrogen required an increase of temperature.

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