罗丹明B的共振散射光谱研究

研究了罗丹明B(RhB)的共振光散射的特性与机理。在 pH =- 0 38至 pH 4 10的酸性溶液中 ,共振光散射信号随pH值增大而增强 ,近中性时散射强度达到最大。散射强度随波长的变化不符合瑞利散射定律。RhB的荧光激发光谱与发射光谱有部分重叠 ,共振散射峰处于荧光激发峰和荧光发射峰之间。在三维荧光等高线光谱图中 ,瑞利散射线与荧光等高线相交。在光偏振实验中 ,测得共振散射光的偏振度P≈ 0 1。上述实验结果揭示RhB的共振散射光主要是共振荧光。共振光散射信号随 pH值增大而增强的机理是RhB酸碱平衡移动导致荧光型体的形成。RhB的共振散射峰位于吸收曲线轮廓之中 ,共振光散射受光吸收的影响 ,因此 ,散射光强度与浓度之间不是严格的线性关系。

Resonance Light Scattering of Rhodamine B

The characteristic and mechanism of resonance light scattering (RLS) of Rhodamine B (RhB) were studied. In acidic solutions with pH from -0.38 to 4.10, the intensity of RLS increases with an increase in pH and reaches a maximum at nearly neutral pH. The change in RLS intensity with the wavelength was not accordant with Rayleigh scattering law. The fluorescence excitation and emission spectra of RhB overlap partly, and the RLS peak lies between the fluorescence excitation and emission peaks. In the three-dimensional fluorescence contour spectra of RhB, Rayleigh scattering line intersects fluorescence contour. In light polarization experiment, the polarization of RLS was measured to be P approximately = 0.1. All the above experimental facts reveal that the RLS of RhB is mainly resonance fluorescence. The mechanism of RLS enhancement by the increase in pH is that the formation of fluorescence species occurs in acid-base equilibrium. The RLS peak of RhB appears within the envelope of absorption, and light scattering is affected by light absorption, so, the relationship between RLS intensity and RhB concentration is not strictly linear.