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Determination of the Hydrogen Storage Capacity of Novel Sepiolite-Derived Carbonaceous Materials.

机译：新型海泡石衍生碳质材料的储氢能力测定。

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摘要

Carbonaceous nanofibers derived from a one dimensional channeled material having hydrogen adsorbed on the surfaces thereof are disclosed as a well as a method of storing hydrogen in which a plurality of carbonaceous nanofibers derived from a one dimensional channeled material are provided, and the nanofibers are contacted with hydrogen at a temperature and pressure for a time sufficient to adsorb hydrogen thereon.

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Sandi-Tapia, G.; Gregar, K. C.;
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年度 2005
页码 1-15
总页数 15
原文格式 PDF
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关键词
Patent application; Hydrogen storage capacity; Carbonaceous materials; Sepiolite; Channeled material; Nanofibers;

机译：专利申请;储氢能力;含碳材料;海泡石;通道材料;纳米纤维;

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专利

1. Hydrogen adsorption in carbonaceous materials- How to determine the storage capacity accurately [J] . Tetsu Kiyobayashi, Hiroyuki T. Takeshita, Hideaki Tanaka Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2002,第0期

机译：含碳材料中的氢吸附-如何准确确定储存容量
2. Simultaneous Determination Of Ammonia Emission And Hydrogen Capacity Variation During The Cyclic Testing For Linh_2-lih Hydrogen Storage System [J] . Shingo Ikeda, Nobuhiro Kuriyama, Tetsu Kiydbayashi International journal of hydrogen energy . 2008,第21期

机译：Linh_2-lih储氢系统循环测试中氨气排放量和氢容量变化的同时测定
3. The coalbed methane (CBM) potential and CO_2 storage capacity of the Santa Terezinha Coalfield, Parana Basin,Brazil - 3D modelling, and coal and carbonaceous shale characteristics and related desorption and adsorption capacities in samples from exploration borehole CBM001-ST-RS [J] . W. Kalkreuth, M. Holz, J. Levandowski, Energy Exploration & Exploitation . 2013,第4期

机译：巴西Parana盆地Santa Terezinha煤田的煤层气（CBM）潜力和CO_2储存能力-3D模拟以及勘探井眼中的煤和碳质页岩特征以及相关的解吸和吸附能力CBM001-ST-RS
4. DEVELOPMENT AND CHARACTERIZATION OF CARBONACEOUS MATERIALS INCORPORATED WITH METAL (Ti, V AND Zn )-ORGANIC COMPOUNDS FOR HYDROGEN STORAGE [C] . Mala Nath, Asheesh Kumar, Arjit Mallick TMS annual meeting exhibition;Symposium on characterization of minerals, metals, and materials . 2012

机译：金属（Ti，V和Zn）-有机化合物储氢碳材料的制备与表征
5. First Principles Study of High Capacity Hydrogen Storage Materials. [D] . Wang, Yongli. 2014

机译：高容量储氢材料的第一原理研究。
6. Double enhancement of hydrogen storage capacity of Pd nanoparticles by 20 at replacement with Ir; systematic control of hydrogen storage in Pd–M nanoparticles (M = Ir Pt Au) [O] . Hirokazu Kobayashi, Miho Yamauchi, Ryuichi Ikeda, 2018

机译：通过用Ir取代20 at％来使Pd纳米颗粒的储氢能力提高一倍； Pd–M纳米颗粒中氢存储的系统控制（M = IrPtAu）
7. Nanodispersed Mg-based Powders Received in a Hydrogen-argon Plasma Flow and Estimation of their Application Prospects as Hydrogen Storage Materials. [O] . Melnikova, Evgenia I, Kolonenko, Andrey L., Glushenko, Gari A., 2018

机译：氢氩等离子体流中接收的纳米分散镁基粉末及其储氢材料的应用前景估计。
8. Clean Carbon and Hydrogen Fuels from Coal and Other Carbonaceous Raw Materials. [R] . Steinberg, M. 1987

机译：从煤和其他含碳原料中清除碳和氢燃料。

Determination of the Hydrogen Storage Capacity of Novel Sepiolite-Derived Carbonaceous Materials.

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