Redshift of Excitation Wavelength Caused by the Concentration of L-Tryptophan in Water: A Theoretical and Experimental Study

D. Uriza-Prias, A. Méndez-Blas, J. Rivas-Silva
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引用次数: 1

Abstract

A redshift in the wavelength of excitation spectra is experimentally measured as a function of the concentration parameter for tryptophan solutions in water. To understand the microscopic causes of this behavior, theoretical calculations obtained from four model clusters are carried out: (Trp)1 - (H2O)9, (Trp)2 - (H2O)18, (Trp)3 - (H2O)27 and (Trp)4 - (H2O)36, where there are interactions among 1, 2, 3 and 4 molecules of tryptophan. According to the literature, each interaction occurred with nine molecules of water to stabilize its expected zwitterionic form. In these models, the molecules of tryptophan appear at an adjacent distance among them to generate an analogous behavior when there is an experimental increase in the concentration. It is evident that the distance between adjacent molecules of tryptophan decreases as their concentration increases. The optical properties of these clusters are obtained by studying the corresponding excited states and the molecular orbitals involved, showing charge transfers by using time-dependent density functional theory (TD-DFT) methods. The experimental spectroscopic data are obtained by using the clusters proposed, and good agreement is found by drawing a comparison with the theoretical data.
水中l -色氨酸浓度引起的激发波长红移:理论和实验研究
实验测量了色氨酸水溶液中激发光谱波长的红移作为浓度参数的函数。为了理解这种行为的微观原因,从四个模型簇中进行了理论计算:(Trp)1 - (H2O)9, (Trp)2 - (H2O)18, (Trp)3 - (H2O)27和(Trp)4 - (H2O)36,其中色氨酸的1、2、3和4分子之间存在相互作用。根据文献,每次相互作用都与9个水分子发生,以稳定其预期的两性离子形式。在这些模型中,色氨酸分子出现在它们之间的相邻距离上,以在实验中浓度增加时产生类似的行为。很明显,相邻色氨酸分子之间的距离随着它们浓度的增加而减小。利用时间依赖的密度泛函理论(TD-DFT)方法,研究了这些团簇的相应激发态和所涉及的分子轨道,得到了它们的光学性质。利用所提出的聚类获得了实验光谱数据,并与理论数据进行了比较,结果吻合较好。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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