Decomposition mechanism of dihydroxylammonium 5,5'-bis(tetrazole)-1,1'-diolate on Al(111) surface by periodic DFT calculation

Zhao Ying; Xing Xiaoling; Zhao Shengxiang; Ju Xuehai

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Decomposition mechanism of dihydroxylammonium 5,5'-bis(tetrazole)-1,1'-diolate on Al(111) surface by periodic DFT calculation

机译：通过周期性DFT计算对二羟基铵5,5,5'-双（四唑）-1,1'-二氢盐的分解机理

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The generalized gradient approximation (GGA) of density function theory (DFT) methods are employed to investigate the decomposition of TKX- -50 molecule on the Al(111) surface. The calculation employs an Al supercell slab model and periodic boundary conditions. Five kinds of adsorption configurations for TKX-50 on Al surface are studied. The TKX-50 is adsorbed on Al surface to form the N–Al, O–Al and OH–Al bonds. The adsorption energies are in the range from –113.15 to –1334.40 kJ/mol. The activation energies of all configurations are in the range of 100.34–354.10 kJ/mol. The N1-N2 ruptures in V1 and N2-N3 ruptures in V2 takes place easily. The activation energies of these two bonds rupture (100.34 and 108.06 kJ/mol, respectively) are less than that of pure TKX-50 (161.58 and 215.99 kJ/mol). Al atoms promote the breaking of the tetrazole ring of TKX-50. The quantities of electron transfer from Al atoms to TKX-50 are in range of 1.42–4.90 e.

机译：密度函数理论（DFT）方法的广义梯度近似（GGA）用于研究Al（111）表面上的TKX--50分子的分解。该计算采用Al SuperCell板式模型和周期性边界条件。研究了Al表面上的TKX-50的五种吸附配置。 TKX-50吸附在Al表面上以形成N-Al，O-Al和OH-Al键。吸附能量在-113.15至-1334.40 kJ / mol的范围内。所有配置的激活能量在100.34-354.10 kJ / mol的范围内。 V2中的V1和N2-N3破裂的N1-N2破裂容易发生。这两个键断裂的激活能量（100.34和108.06 kJ / mol）小于纯TKX-50（161.58和215.99 kJ / mol）。 Al原子促进了TKX-50的四唑环的破裂。从Al原子到TKX-50的电子转移量为1.42-4.90 e。

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《Journal of the Serbian Chemical Society》 |2020年第5期|共10页
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Zhao Ying; Xing Xiaoling; Zhao Shengxiang; Ju Xuehai;
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TKX-50adsorptiontransient statesactivation energycharge transfer;

机译：TKX-50ADSORPORTIOPTRANSENTS STATESIVATION TEMIBICATION TRANSERT;

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Decomposition mechanism of dihydroxylammonium 5,5'-bis(tetrazole)-1,1'-diolate on Al(111) surface by periodic DFT calculation

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