杯芳烃在空气-水界面的分子行为:密度泛函理论、表面压力、势和有效偶极矩

Q3 Multidisciplinary

Malaysian journal of science Pub Date : 2022-10-31 DOI:10.22452/mjs.vol41no3.9

F. L. Supian, Wong Yeong Yi, Nur Farah Nadia Abd Karim, A. Radzwan, Darvina Lim Choo Kheng, A. A. Al Naim

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引用次数: 0

摘要

本文研究了Langmuir-Blodgett超薄杯芳烃薄膜在空气-水界面上的行为。利用Langmuir槽估计了杯芳烃(THC4)和杯芳烃(THC8)的表面压力、表面电位和有效偶极矩。利用密度泛函理论(DFT)确定了带隙。DFT模拟得到THC4的带隙为2.28 eV，证实THC4是绝缘体。THC4和THC8的表面压力等温线得到了从气相到固相的预期分子行为。THC4和THC8在气-水亚相中分别呈垂直和平行方向。TCH4和THC 8的∆Vmax值分别为205 mV和141mV，µ﬩max值分别为0.147 D和0.088 D。

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THE MOLECULAR BEHAVIORS OF CALIXARENES AT THE AIR-WATER INTERFACE: DENSITY FUNCTIONAL THEORY, SURFACE PRESSURE, POTENTIAL, AND EFFECTIVE DIPOLE MOMENT

This study examined the behaviors of Langmuir-Blodgett ultrathin calixarene films at the air-water interface. The Langmuir trough was used to estimate the surface pressure, surface potential, and effective dipole moment of two calixarenes, namely, calix[4]arene (THC4) and calix[8]arene (THC8). The band gap was determined using the density functional theory (DFT). The DFT simulation gave a band gap of 2.28 eV for THC4, confirming that THC4 was an insulator. The surface pressure isotherms of THC4 and THC8 yielded the expected molecular behavior from the gaseous to the solid phases. THC4 and THC8 showed a perpendicular and a parallel orientation in the air-water subphase, respectively. The ∆Vmax values of TCH4 and THC 8 were 205 mV and 141mV, respectively, and their µ﬩max values were 0.147 D and 0.088 D, respectively.

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来源期刊

Malaysian journal of science Multidisciplinary-Multidisciplinary

CiteScore

1.10

自引率

0.00%

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期刊介绍： Information not localized