Chemically Modified Quinoidal Oligothiophenes for Enhanced Linear and Third-Order Nonlinear Optical Properties

Bibi, Amna; Muhammad, Shabbir; urRehman, Shafiq; Bibi, Shamsa; Bashir, Shahid; Ayub, Khurshid; Adnan, Muhammad; Khalid, Muhammad

doi:10.1021/acsomega.1c03218

Cited by 33 publications

(41 citation statements)

References 64 publications

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“…The origin of hyperpolarizabilities with full parameter dependence has been studied in our previous studies . For more detailed studies about the abovementioned two-level and three-level approximations, we encourage the reader to look into the works of Bredes et al and Nakano et al, along with others. , For the purpose of brevity, we can currently consider transition energy as a crucial factor owing to its cubic terms, which are involved in the denominator of the two-level and three-level approximations . The UV–visible spectra indicate that MBTB shows lower transition energy as compared to BTCC , which might have contributed more to enhancing its NLO response property as compared to BTCC .…”

Section: Details Of the Applied Computational Methodologymentioning

confidence: 97%

“…56,57 For the purpose of brevity, we can currently consider transition energy as a crucial factor owing to its cubic terms, which are involved in the denominator of the two-level and three-level approximations. 58 The UV−visible spectra indicate that MBTB shows lower transition energy as compared to BTCC, which might have contributed more to enhancing its NLO response property as compared to BTCC.…”

Section: Details Of the Applied Computational Methodologymentioning

confidence: 97%

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Single-Crystal Investigation, Hirshfeld Surface Analysis, and DFT Study of Third-Order NLO Properties of Unsymmetrical Acyl Thiourea Derivatives

et al. 2021

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In the current research work, unsymmetrical acyl thiourea derivatives, 4-((3-benzoylthioureido)methyl)cyclohexane-1-carboxylic acid (BTCC) and methyl 2-(3-benzoylthioureido)benzoate (MBTB), have been synthesized efficiently. The structures of these crystalline thioureas were unambiguously confirmed by single-crystal diffractional analysis. The crystallographic investigation showed that the molecular configuration of both compounds is stabilized by intramolecular N–H···O bonding. The crystal packing of BTCC is stabilized by strong N–H···O bonding and comparatively weak O–H···S, C–H···O, C–H···π, and C–O···π interactions, whereas strong N–H···O bonding and comparatively weak C–H···O, C–H···S, and C–H···π interactions are responsible for the crystal packing of MBTB. The noncovalent interactions that are responsible for the crystal packing are explored by the Hirshfeld surface analysis for both compounds. The void analysis is performed to find the quantitative strength of crystal packing in both compounds. Additionally, state-of-the-art applied quantum chemical techniques are used to further explore the structure–property relationship in the above-entitled molecules. The optimization of molecular geometries showed a reasonably good correlation with their respective experimental structures. Third-order nonlinear optical (NLO) polarizability calculations were performed to see the advanced functional application of entitled compounds as efficient NLO materials. The average static γ amplitudes are found to be 27.30 × 10–36 and 102.91 × 10–36 esu for the compounds BTCC and MBTB, respectively. The γ amplitude of MBTB is calculated to be 3.77 times larger, which is probably due to better charge-transfer characteristics in MBTB. The quantum chemical analysis in the form of 3-D plots was also performed for their frontier molecular orbitals and molecular electrostatic potentials for understanding charge-transfer characteristics. We believe that the current investigation will not only report the new BTCC and MBTB compounds but also evoke the interest of the materials science community in their potential use in NLO applications.

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Section: Details Of the Applied Computational Methodologymentioning

confidence: 97%

Section: Details Of the Applied Computational Methodologymentioning

confidence: 97%

Single-Crystal Investigation, Hirshfeld Surface Analysis, and DFT Study of Third-Order NLO Properties of Unsymmetrical Acyl Thiourea Derivatives

et al. 2021

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“…It gives information about intermolecular charge transfer (ICT) and their hidden potentials. 54 TDM analysis was computed using B3LYP/6-31G+(d, p) level of theory and its colorful 3-D illustration was attained using Multiwfn software. The TDM graphs of the cage BC and all other doped complexes are shown in Fig.…”

Section: Resultsmentioning

confidence: 99%

DFT study of alkali and alkaline earth metal-doped benzocryptand with remarkable NLO properties

et al. 2022

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“…[1][2][3][4] Nowadays, the applications of NLO materials have been extended to field-effect transistors, photovoltaics, organic light-emitting diodes (OLEDs) and holographic imaging. [5][6][7][8][9] Most related works have focused on organic NLO materials in contrast to inorganic materials because of their many attractive advantages, such as large electro-optical coefficients, easy fabrication, quick response time, tailorability and chemical stability. 10,11 Driven by the demand for NLO materials, continuous strides are made towards the development of novel organic NLO materials with a good response.…”

Section: Introductionmentioning

confidence: 99%

Theoretical investigation of electronic structures, second-order NLO responses of cyclometalated Ir(iii) and Rh(iii) counterpart complexes: effect of metal centers

Wang

Qiu

et al. 2022

New J. Chem.

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Chemically Modified Quinoidal Oligothiophenes for Enhanced Linear and Third-Order Nonlinear Optical Properties

Cited by 33 publications

References 64 publications

Single-Crystal Investigation, Hirshfeld Surface Analysis, and DFT Study of Third-Order NLO Properties of Unsymmetrical Acyl Thiourea Derivatives

Single-Crystal Investigation, Hirshfeld Surface Analysis, and DFT Study of Third-Order NLO Properties of Unsymmetrical Acyl Thiourea Derivatives

DFT study of alkali and alkaline earth metal-doped benzocryptand with remarkable NLO properties

Theoretical investigation of electronic structures, second-order NLO responses of cyclometalated Ir(iii) and Rh(iii) counterpart complexes: effect of metal centers

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