Synthesis, structural characterization and hydrogen storage of nickel-containing mesoporous MCM-48 by electroless plating
详细信息    查看全文
  • 作者:Guangxu Zhang 张光旭 ; Xiaocong Ren ; Yuan Fang…
  • 关键词:MCM ; 48 ; electroless Ni ; plating ; ultrasonic method ; metallic composites ; hydrogen storage
  • 刊名:Journal of Wuhan University of Technology--Materials Science Edition
  • 出版年:2016
  • 出版时间:February 2016
  • 年:2016
  • 卷:31
  • 期:1
  • 页码:64-67
  • 全文大小:1,227 KB
  • 参考文献:[1]Zuttel. Materials for Hydrogen Storage[J]. Mater. Today, 2003, 6(9): 24–33CrossRef
    [2]Hynek S, Fuller W, Bentley J. Hydrogen Storage by Carbon Sorption[J]. Int. J. Hydrogen Energy, 1997, 22(6): 601–610CrossRef
    [3]Kim Wooyoung, Kim PIL, Joo Ji Bong. The Preparation and Characterization of Porous Carbons for Hydrogen Storage[J]. J. Electronceramics, 2006, 17(2-4): 679–682CrossRef
    [4]Dillon AC, Jones KM, Bekkedahl TA, et al. Storage of Hydrogen in Single-walled Carbon Nanotubes[J]. Nature, 1997, 386(27): 377–379CrossRef
    [5]Hou PX, Yang QH, Bai S, et al. Storage Capacity of Hydrogen in Purified Multiwalled Carbon Nanotubes[J]. J. Phys. Chem. B, 2002, 106(5): 963–966CrossRef
    [6]Du X, Wu E. Physisorption of Hydrogen in A, X and ZSM-5 Types of Zeolites at Moderately High Pressures[J]. Chin. J. Chem. Phys., 2006, 19(5): 457–462CrossRef
    [7]Vitillo JG, Ricchiardi G, Spoto G, et al. Theoretical Maximal Storage of Hydrogen in Zeolitic Frameworks[J]. Phys. Chem. Chem. Phys., 2005, 7(23): 3 948-3 954CrossRef
    [8]Langmi HW, Walton A, Al-Mamouri MM, et al. Hydrogen Adsorption in Zeolites A, X, Y and RHO[J]. J. Alloys Compd., 2003, 356-357: 710–715CrossRef
    [9]Li J, Cheng S, Zhao Q, et al. Synthesis and Hydrogen Storage Behaviour of Metal Organic Framework MOF-5[J]. Int. J. Hydrogen Energy, 2009, 34: 1 377–1 382CrossRef
    [10]Rosi NL, Eckert J, Eddaoudi M, et al. Hydrogen Storage in Microporous Metal-organic Frameworks[J]. Science, 2003, 300(5266): 1 127–1 129CrossRef
    [11]Kresge CT, Leonowicz ME, Roth WJ, et al. Ordered Mesoporous Molecular Sieves Synthesized by a Liquid-crystal Template Mechanism[J]. Nature, 1992, 359(6397): 710–712CrossRef
    [12]Longloilert R, Chaisuwan T, Luengnaruemitchai A, et al. Synthesis of MCM-48 From Silatrane via Sol-gel Process[J]. J. Sol-Gel Sci. Technol., 2011, 58(2): 427–435CrossRef
    [13]Wu CD, Gao QM, Hu J, et al. Rapid Preparation, Characterization and Hydrogen Storage Properties of Pure and Metal Ions Doped Mesoporous MCM-41[J]. Micropor. Mesopor. Mat., 2009, 117: 165–169CrossRef
    [14]Prasanth KP, Manoj CR, Bajaj HC, et al. Hydrogen Sorption in Transition Metal Modified Mesoporous Materials[J]. Int. J. Hydrogen Energy, 2010, 35(6): 2 351–2 360CrossRef
    [15]Prasanth KP, Bajaj HC, Chung HD, et al. Hydrogen Sorption in Transition Metal Modified NaETS-4[J]. J. Alloys. Compd., 2009, 480(2): 580–586CrossRef
    [16]Prasanth KP, Bajaj HC, Chung HD, et al. Hydrogen Sorption in Transition Metal Modified ETS-10[J]. Int. J. Hydrogen Energy, 2009, 34(2): 888–896CrossRef
    [17]DUTTA K, SRIVATAVA O N. Synthesis, Structural Characterization and Hydrogenation Behaviour of the New Hydrogen Storage Composite Alloy LaMg17-x wt% LaNi5[J]. J. Mater. Sci., 1993, 28(13): 3 457–3 462CrossRef
    [18]Molina R, Poncelet G. Hydrogenation of Benzene over Alumunasupported Nickel Catalysts Prepared From Ni(II) Acetylacetonate[J]. J. Catal., 2001, 199(2): 162–170CrossRef
    [19]Xu WC, Takahashi K, Matsuo Y, et al. Investigation of Hydrogen Storage Capacity of Various Carbon Materials[J]. Int. J. Hydrogen Energy, 2007, 32(13): 2 504–2 512CrossRef
    [20]Beck JS, Vartuli JC, Roth WJ. A New Family of Mesoporous Molecular Sieves Prepared with Liquid Crystal Templates[J]. J. Am. Chem. Soc., 1992, 114(27): 10 834–10 843CrossRef
  • 作者单位:Guangxu Zhang 张光旭 (1)
    Xiaocong Ren (2)
    Yuan Fang (1)
    Jian Chen (1)

    1. School of Chemistry, Chemical Engineering and Life Sciences, Wuhan University of Technology, Wuhan, 430070, China
    2. Department of Biotechnology, ZhiXing College of HuBei University, Wuhan, 430070, China
  • 刊物类别:Chemistry and Materials Science
  • 刊物主题:Chemistry
    Materials Science
    Chinese Library of Science
  • 出版者:Wuhan University, co-published with Springer
  • ISSN:1993-0437
文摘
Hydrogen is a promising fuel for it is clean, highly abundant and non-toxic, but on-board storage of hydrogen is still a challenge. So it is imperative to have an efficient method of hydrogen storage. The mesoporous MCM-48 especially the nickel-containing MCM-48 has great potential in hydrogen storage. MCM- 48 was prepared by hydrothermal synthesis. Then electroless plating technology was used to deposit Ni on the surface of MCM-48 under ultrasonic environment. Powder X-ray diffraction (XRD), transmission electron microscopy (TEM), and N2 adsorption-desorption were employed to investigate the pore structure properties. The results showed that all the samples had Ia3d cubic structure and pore channels were highly ordered. Hydrogen adsorption studies showed that the MCM-48 after nickel plating adsorbed nearly twice the amount of hydrogen than pure MCM-48 at 2.0 MPa, 263 K. So we believe that a small amount of Ni can improve the capacity of hydrogen adsorption of MCM-48 efficiently. Key words MCM-48 electroless Ni-plating ultrasonic method metallic composites hydrogen storage
NGLC 2004-2010.National Geological Library of China All Rights Reserved.
Add:29 Xueyuan Rd,Haidian District,Beijing,PRC. Mail Add: 8324 mailbox 100083
For exchange or info please contact us via email.