Ag/Pd nanoparticles supported on amine-functionalized metal-organic framework for catalytic hydrolysis of ammonia borane

International Journal of Hydrogen Energy

Volumn 41, Issue 2, 2016, Pages 944-950

  Shang, Ning Zhao ^a   Feng, Cheng ^a   Gao, Shu Tao ^a   Wang, Chun ^a  

^a AGRICULTURAL UNIVERSITY OF HEBEI   (China)

Author keywords

AgPd bimetallic; Ammonia borane; Hydrogen storage; Hydrolysis; UIO 66 NH2

Indexed keywords

AMMONIA; CATALYSTS; CRYSTALLINE MATERIALS; HYDROGEN STORAGE; HYDROLYSIS; METAL NANOPARTICLES; NANOPARTICLES; ORGANOMETALLICS; PALLADIUM; SILVER; SYNTHESIS (CHEMICAL);

AGPD BIMETALLIC; AMMONIA BORANE; CATALYTIC HYDROLYSIS; FUNCTIONALIZED; METAL ORGANIC FRAMEWORK; METAL ORGANIC FRAMEWORK MATERIALS; TURNOVER FREQUENCY; UIO-66-NH2;

CATALYST ACTIVITY;

EID: 84955489606     PISSN: 03603199     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.ijhydene.2015.10.062     Document Type: Article

References (57)

1. L. Schlapbach, and A. Züttel Hydrogen-storage materials for mobile applications Nature 414 2001 353 358
2. Q.L. Zhu, N. Tsumori, and Q. Xu Sodium hydroxide-assisted growth of uniform Pd nanoparticles on nanoporous carbon MSC-30 for efficient and complete dehydrogenation of formic acid under ambient conditions Chem Sci 5 2014 195 199
3. Z.L. Wang, J.M. Yan, Y. Ping, H.L. Wang, W.T. Zheng, and Q. Jiang An efficient CoAuPd/C catalyst for hydrogen generation from formic acid at room temperature Angew Chem Int Ed 52 2013 4406 4409
4. H.-L. Jiang, and Q. Xu Catalytic hydrolysis of ammonia borane for chemical hydrogen storage Catal Today 170 2011 56 63
5. L. Gao, C.Y. Li, H. Yung, and K.Y. Chan A functionalized MIL-101(Cr) metal-organic framework for enhanced hydrogen release from ammonia borane at low temperature Chem Commun 49 2013 10629 10631
6. X. Meng, S. Li, B. Xia, L. Yang, N. Cao, J. Su, and et al. Decoration of graphene with tetrametallic Cu@FeCoNi core-shell nanoparticles for catalytic hydrolysis of amine boranes RSC Adv 4 2014 32817 32825
7. F.H. Stephens, V. Pons, and R. Tom Baker Ammonia-borane: the hydrogen source par excellence? Dalton Trans 2007 2613 2626
8. S.-W. Lai, H.-L. Lin, Y.-P. Lin, and T.L. Yu Hydrolysis of ammonia-borane catalyzed by an iron-nickel alloy on an SBA-15 support Int J Hydrogen Energy 38 2013 4636 4647
9. J.M. Yan, X.B. Zhang, S. Han, H. Shioyama, and Q. Xu Iron-nanoparticle-catalyzed hydrolytic dehydrogenation of ammonia borane for chemical hydrogen storage Angew Chem Int Ed 47 2008 2287 2289
10. N. Cao, W. Luo, and G. Cheng One-step synthesis of graphene supported Ru nanoparticles as efficient catalysts for hydrolytic dehydrogenation of ammonia borane Int J Hydrogen Energy 38 2013 11964 11972
11. N. Blaquiere, S. Diallo Garcia, S.I. Gorelsky, D.A. Black, and K. Fagnou Ruthenium-catalyzed dehydrogenation of ammonia boranes J Am Chem Soc 130 2008 14034 14035
12. 2O core shell catalysts for hydrogen generation from ammonia-borane Phys Chem Chem Phys 10 2008 5870 5874
13. 3. A comparative study of their activity in hydrolysis of ammonia-borane Int J Hydrogen Energy 36 2011 7051 7065
14. 2 nanospheres: synergetic catalysis in hydrolytic dehydrogenation of ammonia borane Chem Eur J 16 2010 3132 3137
15. L. Yang, J. Su, X. Meng, W. Luo, and G. Cheng In situ synthesis of graphene supported Ag@CoNi core-shell nanoparticles as highly efficient catalysts for hydrogen generation from hydrolysis of ammonia borane and methylamine borane J Mater Chem A 1 2013 10016
16. F. Qiu, G. Liu, L. Li, Y. Wang, C. Xu, C. An, and et al. Synthesis of triple-layered Ag@Co@Ni core-shell nanoparticles for the catalytic dehydrogenation of ammonia borane Chem Eur J 20 2014 505 509
17. A. Dhakshinamoorthy, and H. Garcia Catalysis by metal nanoparticles embedded on metal-organic frameworks Chem Soc Rev 41 2012 5262 5284
18. H.R. Moon, D.W. Lim, and M.P. Suh Fabrication of metal nanoparticles in metal-organic frameworks Chem Soc Rev 42 2013 1807 1824
19. Q.L. Zhu, and Q. Xu Metal-organic framework composites Chem Soc Rev 43 2014 5468 5512
20. P.Z. Li, K. Aranishi, and Q. Xu ZIF-8 immobilized nickel nanoparticles: highly effective catalysts for hydrogen generation from hydrolysis of ammonia borane Chem Commun 48 2012 3173 3175
21. L. Wen, J. Su, X. Wu, P. Cai, W. Luo, and G. Cheng Ruthenium supported on MIL-96: an efficient catalyst for hydrolytic dehydrogenation of ammonia borane for chemical hydrogen storage Int J Hydrogen Energy 39 2014 17129 17135
22. H. Dai, J. Su, K. Hu, W. Luo, and G. Cheng Pd nanoparticles supported on MIL-101 as high-performance catalysts for catalytic hydrolysis of ammonia borane Int J Hydrogen Energy 39 2014 4947 4953
23. N. Cao, T. Liu, J. Su, X. Wu, W. Luo, and G. Cheng Ruthenium supported on MIL-101 as an efficient catalyst for hydrogen generation from hydrolysis of amine boranes New J Chem 38 2014 4032 4035
24. J. Li, Q.L. Zhu, and Q. Xu Highly active AuCo alloy nanoparticles encapsulated in the pores of metal-organic frameworks for hydrolytic dehydrogenation of ammonia borane Chem Commun 50 2014 5899 5901
25. Q.L. Zhu, J. Li, and Q. Xu Immobilizing metal nanoparticles to metal-organic frameworks with size and location control for optimizing catalytic performance J Am Chem Soc 135 2013 10210 10213
26. A. Aijaz, A. Karkamkar, Y.J. Choi, N. Tsumori, E. Ronnebro, T. Autrey, and et al. Immobilizing highly catalytically active Pt nanoparticles inside the pores of metal-organic framework: a double solvents approach J Am Chem Soc 134 2012 13926 13929
27. Y.Z. Chen, Q. Xu, S.H. Yu, and H.L. Jiang Tiny Pd@Co core-shell nanoparticles confined inside a metal-organic framework for highly efficient catalysis Small 11 2015 71 76
28. J. Li, Q.-L. Zhu, and Q. Xu Non-noble bimetallic CuCo nanoparticles encapsulated in the pores of metal-organic frameworks: synergetic catalysis in the hydrolysis of ammonia borane for hydrogen generation Catal Sci Technol 5 2015 525 530
29. D. Wang, and Y. Li Bimetallic nanocrystals: liquid-phase synthesis and catalytic applications Adv Mater 23 2011 1044 1060
30. R. Ferrando, J. Jellinek, and R.L. Johnston Nanoalloys: from theory to applications of alloy clusters and nanoparticles Chem Rev 108 2008 845 910
31. A.J. Amali, K. Aranishi, T. Uchida, and Q. Xu PdPt nanocubes: a high-performance catalyst for hydrolytic dehydrogenation of ammonia borane Part Part Syst Char 30 2013 888 892
32. D. Sun, V. Mazumder, O. Metin, and S. Sun Catalytic hydrolysis of ammonia borane via cobalt palladium nanoparticles ACS nano 5 2011 6458 6464
33. Y. Tong, X. Lu, W. Sun, G. Nie, L. Yang, and C. Wang Electrospun polyacrylonitrile nanofibers supported Ag/Pd nanoparticles for hydrogen generation from the hydrolysis of ammonia borane J Power Sources 261 2014 221 226
34. M. Kim, and S.M. Cohen Discovery, development, and functionalization of Zr (iv)-based metal-organic frameworks Cryst Eng Comm 14 2012 4096 4104
35. Z. Guo, C. Xiao, R.V. Maligal-Ganesh, L. Zhou, T.W. Goh, X. Li, and et al. Pt nanoclusters confined within metal-organic framework cavities for chemoselective cinnamaldehyde hydrogenation ACS Catal 4 2014 1340 1348
36. J. Long, S. Wang, Z. Ding, Y. Zhou, L. Huang, and X. Wang Amine-functionalized zirconium metal-organic framework as efficient visible-light photocatalyst for aerobic organic transformations Chem Commun 48 2012 11656 11658
37. N. Shang, C. Feng, H. Zhang, S. Gao, R. Tang, C. Wang, and et al. Suzuki-Miyaura reaction catalyzed by graphene oxide supported palladium nanoparticles Catal Commun 40 2013 111 115
38. 4 nanocomposite and its application in the removal of dye from aqueous solution Colloid Surf B 101 2013 210 214
39. N. Shang, S. Gao, X. Zhou, C. Feng, Z. Wang, and C. Wang Palladium nanoparticles encapsulated inside the pores of a metal-organic framework as a highly active catalyst for carbon-carbon cross-coupling RSC Adv 4 2014 54487 54493
40. S.T. Gao, W.H. Liu, N.Z. Shang, C. Feng, Q.H. Wu, Z. Wang, and et al. Integration of a plasmonic semiconductor with a metal-organic framework: a case of Ag/AgCl@ZIF-8 with enhanced visible light photocatalytic activity RSC Adv 4 2014 61736 61742
41. M.J. Katz, Z.J. Brown, Y.J. Colon, P.W. Siu, K.A. Scheidt, R.Q. Snurr, and et al. A facile synthesis of UiO-66, UiO-67 and their derivatives Chem Commun 49 2013 9449 9451
42. B. KIlIç, S. ŞencanlI, and Ö. Metin Hydrolytic dehydrogenation of ammonia borane catalyzed by reduced graphene oxide supported monodisperse palladium nanoparticles: high activity and detailed reaction kinetics J Mol Catal A Chem 361-362 2012 104 110
43. M. Rakap, and S. Özkar Zeolite confined palladium (0) nanoclusters as effective and reusable catalyst for hydrogen generation from the hydrolysis of ammonia-borane Int J Hydrogen Energy 35 2010 1305 1312
44. J. Wang, Y.L. Qin, X. Liu, and X.B. Zhang In situ synthesis of magnetically recyclable graphene-supported Pd@Co core-shell nanoparticles as efficient catalysts for hydrolytic dehydrogenation of ammonia borane J Mater Chem 22 2012 12468 12470
45. 100-x nanoparticles and their catalytic activity for hydrogen generation from the hydrolysis of ammonia-borane Int J Hydrogen Energy 40 2015 9235 9243
46. K. Güngörmez, and Ö. Metin Composition-controlled catalysis of reduced graphene oxide supported CuPd alloy nanoparticles in the hydrolytic dehydrogenation of ammonia borane App Catal A Gen 494 2015 22 28
47. M. Rakap Poly(N-vinyl-2-pyrrolidone)-stabilized palladium-platinum nanoparticles-catalyzed hydrolysis of ammonia borane for hydrogen generation J Power Sources 276 2015 320 327
48. L. Hu, B. Zheng, Z. Lai, and K.W. Huang Room temperature hydrogen generation from hydrolysis of ammonia-borane over an efficient NiAgPd/C catalyst Int J Hydrogen Energy 39 2014 20031 20037
49. Y. Karatas, M. Yurderi, M. Gulcan, M. Zahmakiran, and M. Kaya Palladium(0) nanoparticles supported on hydroxyapatite nanospheres: active, long-lived, and reusable nanocatalyst for hydrogen generation from the dehydrogenation of aqueous ammonia-borane solution J Nanopart Res 2014 16
50. M. Rakap The highest catalytic activity in the hydrolysis of ammonia borane by poly(N-vinyl-2-pyrrolidone)-protected palladium-rhodium nanoparticles for hydrogen generation Appl Catal B Environ 163 2015 129 134
51. S. Akbayrak, M. Kaya, M. Volkan, and S. Özkar Palladium(0) nanoparticles supported on silica-coated cobalt ferrite: a highly active, magnetically isolable and reusable catalyst for hydrolytic dehydrogenation of ammonia borane Appl Catal B Environ 147 2014 387 393
52. X. Shen, M. Dai, M. Gao, Z. Wang, B. Zhao, and W. Ding Core-Shell strutured Cu@CoCr catalyst: synthesis and catalytic performance for hydrolysis of ammonia borane aqueous solution Chin J Inorg Chem 29 2013 999 1006
53. P. Xi, F. Chen, G. Xie, C. Ma, H. Liu, C. Shao, and et al. Surfactant free RGO/Pd nanocomposites as highly active heterogeneous catalysts for the hydrolytic dehydrogenation of ammonia borane for chemical hydrogen storage Nanoscale 4 2012 5597 5601
54. 2 under stirred conditions J Power Sources 210 2012 184 190
55. M. Rakap, and S. Özkar Hydroxyapatite-supported palladium(0) nanoclusters as effective and reusable catalyst for hydrogen generation from the hydrolysis of ammonia-borane Int J Hydrogen Energy 36 2011 7019 7027
56. 2) as highly active and reusable catalyst for hydrogen generation from the hydrolysis of unstirred ammonia-borane solution Int J Hydrogen Energy 36 2011 1448 1455
57. Ö. Metin, S. Sahin, and S. Özkar Water-soluble poly(4-styrenesulfonic acid-co-maleic acid) stabilized ruthenium(0) and palladium(0) nanoclusters as highly active catalysts in hydrogen generation from the hydrolysis of ammonia-borane Int J Hydrogen Energy 34 2009 6304 6313