Optimization of the pore structure of nickel/graphite hybrid materials for hydrogen storage

Byung-Joo Kim; Soo-Jin Park

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Optimization of the pore structure of nickel/graphite hybrid materials for hydrogen storage

机译：镍/石墨杂化材料储氢孔结构的优化

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Nickel/graphite hybrid materials were prepared by mixed acid treatment of graphite flakes, following metal nanoparticle deposition. The textural properties were studied by BET surface area measurement and t-plot methods with N_2/77 K adsorption isotherms. The hydrogen storage characteristics of the nickel/graphite at 298 K and 10 MPa were studied using a pressure-composition-temperature apparatus. The pore structure of the materials was studied as a function of processing conditions. In the optimum material, the hydrogen storage capacity was as high as 4.48 wt.%. The total amount of storage was not proportional to the specific surface area or metal content of the adsorbate. A dipole-induced model on nickel/carbon surfaces is proposed for the hydrogen storage mechanism.

机译：在金属纳米颗粒沉积之后，通过石墨薄片的混合酸处理来制备镍/石墨杂化材料。通过BET表面积测量和具有N_2 / 77 K吸附等温线的t图方法研究了织构性质。使用压力组成温度装置研究了镍/石墨在298 K和10 MPa下的储氢特性。研究了材料的孔结构与加工条件的关系。在最佳材料中，储氢量高达4.48重量％。储存总量与被吸附物的比表面积或金属含量不成比例。提出了在镍/碳表面上偶极子诱导的模型，用于储氢机理。

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来源
《International journal of hydrogen energy》 |2011年第1期|p.648-653|共6页
作者
Byung-Joo Kim; Soo-Jin Park;
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作者单位

Nano Material Research Dept., Jeonju Institute of Machinery and Carbon Composites, Palbofedong 2ga, 817, Jeonju 561-844, South Korea;

Dept. of Chemistry, Inha Uniu., 253, Nam-gu, Incheon 402-751, South Korea;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
nickel/graphite hybrid materials; hydrogen storage; dipole-induced model;

机译：镍/石墨杂化材料;储氢;偶极子诱发模型;
入库时间 2022-08-18 00:28:49

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机译：用镍改性纳米结构碳作为潜在的新型可逆储氢材料：镍粒径的影响
2. Nanostructured carbons modified with nickel as potential novel reversible hydrogen storage materials: Effects of nickel particle size (vol 273, pg 50, 2019) [J] . Carraro P. M., Garcia Blanco A. A., Lener G., Microporous and mesoporous materials: The offical journal of the International Zeolite Association . 2019,第期

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3. Effect of crystalline structure and pore geometry of silica based supported materials on the catalytic behavior of metallic nickel particles during methane decomposition to COx-free hydrogen and carbon nanomaterials [J] . Awadallah Ahmed E., El-Desouki Doaa S., Aboul-Gheit Noha A. K., International journal of hydrogen energy . 2016,第38期

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4. Hydrogen storage properties of nanostructured graphite-based materials [C] . Y. Zhang, V. S. J. Mann, D. Reed, International Conference on Sustainable Power Generation and Supply . 2009

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Optimization of the pore structure of nickel/graphite hybrid materials for hydrogen storage

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