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Abstract The study of the interaction between biomolecules and nanoparticles (NPs) is interesting since the dimensions of the two overlap to some extent. Herein, the interaction of an essential amino… Click to show full abstract
Abstract The study of the interaction between biomolecules and nanoparticles (NPs) is interesting since the dimensions of the two overlap to some extent. Herein, the interaction of an essential amino acid, tryptophan, with Cu2S NPs was investigated by using various spectroscopic techniques. The 220 nm absorption band of tryptophan was found to be blue-shifted by 2 and 5 nm at pH 6 and 10.6 respectively. The binding of tryptophan with the Cu2S NPs at pH 10.6 via its indole chromophore was established by the Fourier transform infrared (FTIR) spectroscopic measurements. The fluorescence emission of tryptophan was quenched by the semiconductor NPs. The fluorescence quenching was found to be dynamic in nature at pH 6. However, the static mode of quenching was found to be operative at pH 10.6. The binding constants and thermodynamic parameters were calculated for the tryptophan-Cu2S NPs complex at pH 10.6.
Journal Title: Chemical Physics
Year Published: 2020
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