Enhanced nonlinear optical response of alkalides based on stacked Janus all-cis-1,2,3,4,5,6-hexafluorocyclohexane
وكيل مرتبط
Sajid, H, مؤلف مشارك
Sarfaraz, S, مؤلف مشارك
Hamid, M.H.S.A, مؤلف مشارك
Gilani, M.A, مؤلف مشارك
Ans, M, مؤلف مشارك
Mahmood, T, مؤلف مشارك
Muhammad, S, مؤلف مشارك
Alkhalifah, M.A, مؤلف مشارك
Sheikh, N.S, مؤلف مشارك
Ayub, K, مؤلف مشارك
عنوان الدورية
Heliyon
دولة النشر
Kingdom of Bahrain
مكان النشر
Sakhir, Bahrain
الناشر
University of Bahrain
تاريخ النشر
2023
اللغة
English
الموضوع
الملخص الإنجليزي
ABSTRACT:
Significant efforts are continuously exerted by the scientific community to explore new strategies to design materials with high nonlinear optical responses. An effective approach is to design alkalides based on Janus molecules. Herein, we present a new approach to remarkably boost the NLO response of alkalides by stacking the Janus molecules. Alkalides based on stacked Janus molecule, M-n-M’ (where n = 2 & 3 while M and M′ are Li/Na/K) are studied for structural, energetic, electrical, and nonlinear optical properties. The thermodynamic stability of the designed complexes is confirmed by the energetic stabilities, which range between -14.07 and -28.77 kcal/mol. The alkalide character of alkali metals-doped complexes is confirmed by the NBO charge transfer and HOMO(s) densities. The HOMO densities are located on the doped alkali metal atoms, indicating their alkalide character. The absorptions in UV–Vis and near IR region
confirm the deep ultraviolet transparency of the designed complexes. The maximum first static and dynamic hyperpolarizabilities of 5.13 × 107 and 6.6 × 106 au (at 1339 nm) confirm their high NLO response, especially for K-2-M′ complexes. The NLO response of alkalides based on stacked Janus molecules is 1–2 orders of magnitude higher than the alkalide based on Janus monomer. The high values of dc-Kerr and electric field-induced response e.g., max ~107 and 108 au, respectively have been obtained. These findings suggest that our designed complexes envision a new insight into the rational design of stable high NLO performance materials.
المجموعة
المعرف
https://digitalrepository.uob.edu.bh/id/3acc5a8f-236d-4b86-8ab3-ec1ee89372c1
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