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W4385248839 endingPage "116763" @default.
W4385248839 startingPage "116763" @default.
W4385248839 abstract "Fabrication of stable NLO materials is highly demanding because of their numerous applications in optoelectronic and optical devices. This research attempts to theoretically design superhalogens (LiF2, BeF3, MgF3, LiCl2, BeCl3, MgCl3) doped tetracyclopentatetraphenylnene (TCPTP) as potential NLO materials for cutting-edge NLO applications. Density functional theory (DFT) computations explore their geometric, thermodynamic, electrical, and nonlinear optical (NLO) properties. NCI analysis, DOS, FMO, MEP, TDM, and NBO analysis are performed to confirm the type of interaction, participation of various fragments, and charge transfer, respectively. The computational findings demonstrated that the superhalogen-doped isomers of TCPTP have remarkable thermodynamic stabilities, with the highest binding energy of −81.344 kcalmol−1. The HOMO–LUMO energy gap was significantly decreased from 1.5319 eV (TCPTP) to 1.2807––1.2269 eV by superhalogens doping. The TD-DFT analysis demonstrates that these proposed complexes have sufficient transparency in the UV region, which is necessary to add a high nonlinear optical response for valuable applications in optoelectronics. Magnification in the dipole moment (µ0), polarizability (α0), and hyperpolarizability (β0) values from 0.0 D, 325.00 a.u. and 0.0 a.u to 18.23 D, 463.92 a.u and 4.11 × 104 a.u respectively, is achieved upon superhalogens doping on TCPTP surface. These complexes also had considerably large initial hyperpolarizability (βo) from 1.57 × 103 to 4.11 × 104 au, which was particularly noteworthy. This research with promising initial hyperpolarizability (βo) value will provide new opportunities for experimental and theoretical researchers to develop innovative NLO materials." @default.
W4385248839 created "2023-07-26" @default.
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W4385248839 date "2023-11-01" @default.
W4385248839 modified "2023-09-25" @default.
W4385248839 title "Tuning nonlinear optical properties of tetracyclopentatetraphenylnene by superhalogens doping: Quantum chemical perspective of novel NLO materials for modern optoelectronic applications" @default.
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W4385248839 cites W1895462836 @default.
W4385248839 cites W1967484838 @default.
W4385248839 cites W1971974219 @default.
W4385248839 cites W1976724897 @default.
W4385248839 cites W1986936433 @default.
W4385248839 cites W1988056072 @default.
W4385248839 cites W1990173739 @default.
W4385248839 cites W1992611601 @default.
W4385248839 cites W2002728289 @default.
W4385248839 cites W2005476131 @default.
W4385248839 cites W2009556834 @default.
W4385248839 cites W2013273630 @default.
W4385248839 cites W2014738150 @default.
W4385248839 cites W2021087671 @default.
W4385248839 cites W2022175683 @default.
W4385248839 cites W2023271753 @default.
W4385248839 cites W2030787239 @default.
W4385248839 cites W2040564726 @default.
W4385248839 cites W2055715855 @default.
W4385248839 cites W2073795738 @default.
W4385248839 cites W2075728026 @default.
W4385248839 cites W2086359553 @default.
W4385248839 cites W2098619493 @default.
W4385248839 cites W2100586006 @default.
W4385248839 cites W2108189014 @default.
W4385248839 cites W2115893048 @default.
W4385248839 cites W2132525235 @default.
W4385248839 cites W2157202716 @default.
W4385248839 cites W2171944038 @default.
W4385248839 cites W2268901071 @default.
W4385248839 cites W2344749444 @default.
W4385248839 cites W2403102723 @default.
W4385248839 cites W2435573151 @default.
W4385248839 cites W2463038359 @default.
W4385248839 cites W2463957835 @default.
W4385248839 cites W2507931390 @default.
W4385248839 cites W2518689131 @default.
W4385248839 cites W2557133326 @default.
W4385248839 cites W2605548149 @default.
W4385248839 cites W2617301021 @default.
W4385248839 cites W2692515715 @default.
W4385248839 cites W2735754460 @default.
W4385248839 cites W2739026302 @default.
W4385248839 cites W2747938266 @default.
W4385248839 cites W2774798214 @default.
W4385248839 cites W2789948962 @default.
W4385248839 cites W2800799439 @default.
W4385248839 cites W2803084923 @default.
W4385248839 cites W2887148021 @default.
W4385248839 cites W2921213236 @default.
W4385248839 cites W2925363771 @default.
W4385248839 cites W2947018130 @default.
W4385248839 cites W2950510463 @default.
W4385248839 cites W2975472810 @default.
W4385248839 cites W3003377280 @default.
W4385248839 cites W3028947073 @default.
W4385248839 cites W3034241775 @default.
W4385248839 cites W3081873777 @default.
W4385248839 cites W3094903593 @default.
W4385248839 cites W3111165386 @default.
W4385248839 cites W3125806439 @default.
W4385248839 cites W3128525912 @default.
W4385248839 cites W3142580423 @default.
W4385248839 cites W3154619551 @default.
W4385248839 cites W3179153980 @default.
W4385248839 cites W3181867528 @default.
W4385248839 cites W3198762668 @default.
W4385248839 cites W3210010330 @default.
W4385248839 cites W4220972840 @default.
W4385248839 cites W4283170781 @default.
W4385248839 cites W4285108973 @default.
W4385248839 cites W4312408465 @default.
W4385248839 cites W4313474078 @default.
W4385248839 cites W4367595784 @default.
W4385248839 cites W4379877842 @default.
W4385248839 doi "https://doi.org/10.1016/j.mseb.2023.116763" @default.
W4385248839 hasPublicationYear "2023" @default.
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