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dc.contributor.authorDuman, S. and Demir, H.
dc.date.accessioned2021-04-08T12:09:07Z
dc.date.available2021-04-08T12:09:07Z
dc.date.issued2015
dc.identifier.issn23698128
dc.identifier.urihttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85100745335&partnerID=40&md5=8bc42b71a73563dcf5a7eb0a8c363643
dc.identifier.urihttp://acikerisim.bingol.edu.tr/handle/20.500.12898/4762
dc.description.abstractDimethylamine-borane (DMAB) complex (CH3)2NHBH3 is considered to be the most promising candidate for hydrogen applications among all other practical hydrogen storage materials. It has 3.5 H2%wt and is soluble in solutions (Jaska et al., 2001). More importantly, it is able to release hydrogen via a room-temperature dehydrogenation reaction in the presence of a suitable catalyst (Pun et al., 2007). The catalysts tested for DMAB dehydrogenation have mainly included nanoparticles (NPs) of noble metals Rh (Zahmakiran et al., 2009), Ir (Jaska et al., 2001) and Ru (Duman et al., 2013) which are all unsuitable for practical applications due to their limited resources and high price tags. However, in literature, there are no report concerning the use of non-noble Fe, Ni, Co, Cu and noble Pt catalysts in the DMAB dehydrogenation conditions. Therefore, synthesis of highly efficient bimetallic catalysts with much reduced usage of noble metals Rh, Ir, Ru, and Pt with non-noble metals is desired for dehydrogenation of DMAB. Herein, we reported in situ generation, characterization, and catalytic activity of 4.8 + 0.2 nm oleylamine (OAm)-stabilized CuPt NPs in the synergistic dehydrogenation of DMAB at room temperature. In this synthesis, OAm acted as the solvent, surfactant, and reductant. These NPs were reproducibly isolated from the reaction solution by filtration and characterized by TEM, XRD, HRTEM, ICP-OES,11B NMR, ATR-IR and UV-Visible spectroscopy. Among the 4.8 + 0.2 nm OAm-stabilized CuPt NPs tested for the dehydrogenation of DMAB, the Cu39Pt61 NPs exhibited the highest catalytic activity and durability at room temperature. We also reported the results of a kinetic study on the hydrogen generation from the dehydrogenation of DMAB catalyzed by OAm-stabilized CuPt NPs depending on the catalyst concentration, substrate concentration, and temperature as well as the activation parameters of catalytic dehydrogenation of DMAB calculated from the kinetic data. Highly active OAmstabilized Cu39Pt61 NPs providing a release of 1.0 equivalent H2 per mole of DMAB with initial turnover frequency and activation energy were 121 h-1 and 47 kJmol-1, respectively. The kinetic studies on these Cu39Pt61 NPs reveal that the synergistic dehydrogenation of DMAB is first-order with respect to both catalyst concentration and substrate concentration. The poisoning experiments showed that the synergistic dehydrogenation of DMAB catalyzed by OAm-stabilized Cu39Pt61 NPs is heterogeneous catalysis. Testing the isolability and reusability of OAm-stabilized Cu39Pt61 NPs showed that the isolated and bottled sample of OAm-stabilized Cu39Pt61 NPs is readily dispersible in hexane and remains active in the synergistic dehydrogenation of DMAB. They retain 87% of their initial catalytic activity even at the fifth run with the complete conversion of Me2NHBH3 to [Me2NBH2]2 plus 1.0 equivalent of H2 per mol of DMAB at room temperature. On that account, OAm-stabilized Cu39Pt61 NPs are isolable and reusable heterogeneous catalysts in the synergistic dehydrogenation of DMAB. These results indicate that synthesis of OAmstabilized CuPt NPs may represent a new approach to replace noble metals for the catalysis for future development of DMAB into a practical hydrogen storage material for renewable energy applications. Moreover, easily isolable, reusable, lower cost than alone Pt, most stability and the high catalytic activity of the in-situ generated OAm stabilized CuPt NPs make them a promising candidate to be employed as a catalyst in developing highly efficient portable hydrogen generation systems using DMAB as solid hydrogen storage material. © 2015, Avestia Publishing. All rights reserved.
dc.language.isoEnglish
dc.sourceProceedings of the World Congress on New Technologies
dc.titleSynergistic dehydrogenation of dimethylamine-borane by oleylamine stabilized Cu39Pt61 nanoparticles


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