Hydrazine trapping ability of Si12C12 fullerene-like nanoclusters: a DFT study

被引:0
作者
Rezvan Rahimi
Mohammad Solimannejad
机构
[1] Arak University,Department of Chemistry, Faculty of Sciences
[2] Arak University,Institute of Nanosciences and Nanotechnology
来源
Structural Chemistry | 2020年 / 31卷
关键词
Hydrazine; Si; C; nanocage; DFT;
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摘要
In this study, the nondissociative hydrazine (N2H4) adsorption on the surface of Si12C12 nanoclusters have been investigated using density functional theory at wB97XD/6-31G(d) computational level. It is shown that Si12C12 nanocage can hold up to five N2H4 molecules with the maximum average adsorption energy per hydrazine molecule of − 46.11 kcal/mol. The calculated hydrazine uptake capacity of desired nanocage reached up to 25% which are lies in the desirable range for practical applications. The results show that adsorption of hydrazine monomers on Si12C12 nanocage are more appropriate than adsorption of hydrazine dimers.
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页码:133 / 140
页数:7
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共 164 条
  • [11] Zhu M(1999)Ab initio study of interactions in hydrazine clusters of one to four molecules: cooperativity in the interaction J Phys Chem A 103 6468-6474
  • [12] Wang P(2000)Six structures of the hydrazine dimer J Phys Chem A 104 8263-8269
  • [13] Tafreshi SS(2011)Density functional theory investigations on the catalytic mechanisms of hydrazine decompositions on Ir (1 1 1) Catal Today 165 80-88
  • [14] Roldan A(2010)Hydrazine (N2H4) adsorption on Ni (1 0 0)–density functional theory investigation Surf Sci 604 245-251
  • [15] Dzade NY(2012)First principles investigations of hydrazine adsorption conformations on Ni (111) surface Surf Sci 606 766-771
  • [16] de Leeuw NH(2015)Density functional study of hydrazine adsorption and its NN bond cleaving on Fe (110) surface Surf Sci 639 25-31
  • [17] Song J(2015)The interaction of hydrazine with an Rh (1 1 1) surface as a model for adsorption to rhodium nanoparticles: a dispersion-corrected DFT study Appl Surf Sci 327 462-469
  • [18] Ran R(2015)First-principles investigation of the molecular adsorption and dissociation of hydrazine on Ni–Fe alloy surfaces J Phys Chem C 119 8763-8774
  • [19] Shao Z(2015)Selectivity of Ni-based surface alloys toward hydrazine adsorption: a DFT study with van der Waals interactions Appl Surf Sci 339 36-45
  • [20] Yamada K(2014)Density functional theory study of the adsorption of hydrazine on the perfect and defective copper (100),(110), and (111) surfaces J Phys Chem C 118 26103-26114
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