Electronic Spectra and Photolysis of Bisphenol A in Water
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Russian Physics Journal, Vol. 63, No. 8, December, 2020 (Russian Original No. 8, August, 2020)
ELECTRONIC SPECTRA AND PHOTOLYSIS OF BISPHENOL A IN WATER O. K. Bazyl, E. N. Bocharnikova, and O. N. Tchaikovskaya
UDC 539.194:535.37
A quantum chemical study of the spectral and luminescent properties of the BPA + 2H2O complex was carried out. Calculations were performed by the semi-empirical method of intermediate neglect of differential overlap using a program complex and a special parameterization. The spectral behavior of BPA in water was modeled by a complex with water molecules in the ratio 1: 2 forming the hydrogen bond. The calculated data were compared with the results of investigation of the isolated BPA molecule. The nonplanar BPA structure leads to the strong mixing of the π- and σ-type atomic wave functions. The main reason for the low quantum yield of the BPA fluorescence is the efficient process of singlet-triplet conversion in the S1(ππ*) ≳ Tn(πσ*) channel of the BPA molecule and its complex with water. A study of the photolysis of the isolated BPA molecule upon exposure to solar radiation, the short-wavelength boundary of which on the Earth’s surface is located at ~290 nm (~34480 cm–1), showed that the energy of the photodissociative state localized on the O–H bond is much higher than this value for BPA. The binding curve is characteristic of the S1(ππ*) state, while the singlet and triplet states of the πσ* type, localized on the single C–C bonds of the central fragment of the molecule, are repulsion curves with a barrier. From our point of view, the low efficiency of the BPA degradation under the influence of solar radiation is due to the presence of a significant potential barrier to the photolysis in the singlet or triplet state. The mechanisms of bond breaking in the BPA + 2H2O complex are different for the singlet and triplet states, namely, for the S3(πσ*) state, the break occurs by the predissociation mechanism, and for the Tn(πσ*) state, due to its population through the singlet-triplet conversion in the S1(ππ*) → Тn(πσ*) channel. Keywords: bisphenol A (BPA), photophysical processes, quantum chemical calculation, semiempirical method, photolysis.
INTRODUCTION Nowadays more and more investigations testify to the negative influence of bisphenol A (ВРА) used in manufacture of polycarbonate plastic on human health. Penetrating into the human body with water or mother’s milk [1], bisphenols cause serious endocrine disorders and exhibit genotoxic properties [2] leading to gene mutations. Both in vivo and in vitro analyses showed that bisphenols can inhibit the androgen receptor [3]. In this regard, a problem of bisphenol utilization arises, one of the method of which is the photolysis of molecules. A study of the bisphenol behavior upon exposure to solar radiation showed that the effective destruction of bisphenol in water solutions occurs only in the presence of the TiO2 catalyst which is also toxic for live organisms [1]. Thus, a search for the methods of bisphenol utilization remains still extr
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