DFT studies of single and multiple alkali metals doped C24 fullerene for electronics and nonlinear optical applications.

Naveen Kosar, Hira Tahir, Khurshid Ayub, Tariq Mahmood

Journal of molecular graphics & modelling 2021 Jun

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The geometric, electronic and nonlinear properties of exohedral and endohedral single and multiple alkali metal (Li, Na and K) atom doped C24 fullerene are studied. First, the most stable orientations at the most stable spin state are evaluated. Complexes with odd metal atoms are stable at doublet spin state and complexes with even number of metal atoms are stable at singlet spin state. Thermodynamic analysis shows that Li4C24 among all complexes with highest thermodynamic stability has interaction energy of -190.78 kcal mol-1. The energy gaps (GH-L) are fairly reduced in single and multi-doped cages, and the lowest energy gap is observed for K4C24 complex. NBO analysis is performed to validate the charge transfer from alkali metal toward C24. The largest amount of charge (0.95 |e|) transfer is monitored in exohedral K2C24 complex where the highest charge transfer is for potassium (K) metal. Total density of states (TDOS) spectra of doped complexes justify the involvement of alkali metals and nanocage in new HOMO formation for the excess electrons. First hyperpolarizability is descriptor of NLO properties of single and multi-doped complexes are calculated. It is observed that doping of alkali metal atoms (Li, Na and K) greatly enhances the first hyperpolarizability. Among all the complexes of C24, Na3C24 shows the highest hyperpolarizability value of 2.74 × 105 au. The results of this study are a guideline for the computational designing of highly efficient and thermodynamically stable complexes for the optical and optoelectronic technologies. Copyright © 2021 Elsevier Inc. All rights reserved.

Citation

Naveen Kosar, Hira Tahir, Khurshid Ayub, Tariq Mahmood. DFT studies of single and multiple alkali metals doped C24 fullerene for electronics and nonlinear optical applications. Journal of molecular graphics & modelling. 2021 Jun;105:107867