Zinc-Doped Boron Phosphide Nanocluster as Efficient Sensor for SO2

Shahid Hussain; Shahzad Ali Shahid Chatha; Abdullah Ijaz Hussain; Riaz Hussain; Muhammad Yasir Mehboob; Shabbir Muhammad; Zaheer Ahmad; Khurshid Ayub

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Zinc-Doped Boron Phosphide Nanocluster as Efficient Sensor for SO2

机译：锌掺杂硼磷化纳米粉丝作为SO2的有效传感器

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Adsorption of SO2 on pure B12P12 and Zn-doped B12P12 is investigated through density functional theory methods. Zn adsorption on BP delivers four optimized geometries: B-Top, P-top, b64, and ring-enlarged geometry with adsorption energies of ?57.12?kJ/mol, ?14.50?kJ/mol, ?22.94?kJ/mol, and ?14.83?kJ/mol, respectively. The adsorption energy of SO2 on pristine boron phosphide is ?14.92?kJ/mol. Interaction of SO2 with Zn-doped boron phosphide gives four different geometries with adsorption energies of ?69.76?kJ/mol, ?9.82?kJ/mol, ?104.92?kJ/mol, and ?41.87?kJ/mol. Geometric parameters such as dipole moment, QNBO, frontier molecular orbital analysis, PDOS, and global indices of reactivity are performed to visualize the changes in electronic properties of B12P12 after Zn and SO2 adsorption.

机译：通过密度泛函理论方法研究了SO2在纯B12P12和Zn掺杂B12P12上的吸附。 Zn吸附在BP上提供四个优化的几何形状：B-TOP，P-TOP，B64和环形放大几何与吸附能量的α57.12？KJ / MOL，？14.50？KJ / MOL，？22.94？KJ / MOL，和？14.83？KJ / mol，分别。原始硼磷化物上SO 2的吸附能量是14.92 kJ / mol。 SO2与Zn掺杂的硼磷的相互作用使四种不同的几何形状具有α69.76Ω·kj / mol，αkj/ mol，α.104.92？kj / mol，和αkj/ mol。诸如偶极矩，QNBO，前沿分子轨道分析，PDO和全局反应性的几何参数，以可视化Zn和SO2吸附后B12P12的电子性质的变化。

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《Journal of Chemistry》 |2020年第4期|共12页
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Shahid Hussain; Shahzad Ali Shahid Chatha; Abdullah Ijaz Hussain; Riaz Hussain; Muhammad Yasir Mehboob; Shabbir Muhammad; Zaheer Ahmad; Khurshid Ayub;
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入库时间 2022-08-19 00:46:21

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Zinc-Doped Boron Phosphide Nanocluster as Efficient Sensor for SO2

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