Energetic stability and electronic properties of exohedral derivatives of C_(20): C_(20)X_n (X = H, F, Cl; N = 1-4)

Gomez V.B.; Beran K.A.

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Energetic stability and electronic properties of exohedral derivatives of C_(20): C_(20)X_n (X = H, F, Cl; N = 1-4)

机译：C_（20）：C_（20）X_n（X = H，F，Cl; N = 1-4）的面外衍生物的能量稳定性和电子性质

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Exohedral derivatives of the smallest fullerene, C_(20), with the general formula of C_(20)X_n (X = H, F, Cl; n = 1-4) have been systematically investigated to evaluate the energetic stability of these molecular structures and determine their respective electronic properties. Analysis of the theoretical results indicate that the addition of exohedral atoms increase the stability of the caged-structure to varying degrees according to the predicted HOMO-LUMO gaps, ionization energies, and electron affinities. Further support for increasing stability is deduced from the calculated reaction and binding energies of the exohedral atoms.

机译：已经系统地研究了最小富勒烯C_（20）的外表面衍生物，其通式为C_（20）X_n（X = H，F，Cl; n = 1-4），以评估这些分子结构的能量稳定性并确定它们各自的电子特性。对理论结果的分析表明，根据预测的HOMO-LUMO间隙，电离能和电子亲和力，外表面原子的添加在不同程度上提高了笼状结构的稳定性。由外表面原子的计算反应和结合能推论出增加稳定性的进一步支持。

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《International Journal of Quantum Chemistry》 |2013年第8期|共9页
作者
Gomez V.B.; Beran K.A.;
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正文语种 eng
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density functional; derivatives; fullerenes; relative energy;

机译：密度泛函衍生物富勒烯相对能量;

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Energetic stability and electronic properties of exohedral derivatives of C_(20): C_(20)X_n (X = H, F, Cl; N = 1-4)

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