Quenching of Fluorescent ADS680HO molecule with Eco-Friendly Synthesized Silver Nanoparticles
Abstract
In this work, we have collected spectroscopic optical fluorescence and absorption spectra of the highly fluorescent laser dye molecule ADS680HO in different spectroscopic grade solvents with and without the amalgamation of eco-friendly synthesized silver nanoparticles (AgNP’s), which resulted in the spectral intensities displaying quenching in the fluorescence and absorption intensities. It attributes the shape, dimension and bonding between the AgNP’s and ADS680HO molecules, as well as the transfer of energy among the fluorescent probe and AgNP’s. Fluorescence quenching of dye has innumerable uses for progress in cutting-edge bio-molecular labeling, fluorescence patterning and cancer treatment with chemotherapy.
References
U.S. Raikar, V.B. Tangod, S.R. Mannopantar and B.M. Mastiholi, “Ground and excited state dipole moments of coumarin 337 laser dye”, Optics Communications, vol 283. no 21, pp. 4289-4292, 2010.
U.S. Raikar, V.B. Tangod, C.G. Renuka and B.M. Mastiholi, “Solvent effects and photophysical studies of ADS560EI laser dye”, Afr. J. Pure Appl. Chem., vol. 4 no. 4, pp. 51, 2010.
V.B. Tangod, P.U. Raikar, B.M. Mastiholi, S.G. Kulkarni and M.S. Jadhav, U.S. Raikar, “Photophysics studies of highly fluorescent ADS680HO laser dye conjugate with green silver nanoparticles”, Optik – International Journal for Light and Electron Optics, vol. 127 no.2, pp. 677-685, 2016.
U.S. Raikar, V.B. Tangod and B.M. Mastiholi, “Fluorescence quenching using plasmonic gold nanoparticles”, Optics Communications., Vol. 284, no.19, pp. 4761-4765, 2011.
V.B. Tangod, B.M. Mastiholi, M.G. Kotresh, P.B. Ganjihal, P. Raikar and U.S.Raikar, “Photo physical studies of silver nanoparticles on ADS740WS fluorescent dye”, Proceedings of International Conference on Optical Engineering (ICOE), 2012.
V.B. Tangod, P.U. Raikar, B.M. Mastiholi and U.S. Raikar, “Solvent polarity studies of highly fluorescent laser dye ADS740WS and its fluorescence quenching with silver nanoparticles”, Canadian Journal of Physics., vol.92, no. 2, pp. 116-123. 2014
B.M. Mastiholi, P.U. Raikar, V.B. Tangod, S.G. Kulkarni and U.S. Raikar, “Fluorescence Enhancement of C 314 Laser Dye Based on ICT between C 314 Laser Dye and Green Synthesized Gold Nanoparticles” IOSR Journal of Applied Physics (IOSR-JAP), vol. 6, no. 6 ver. III. pp. 43-47, Nov.-Dec. 2014.
C.F. Bohren and D.F. Huffman, “Absorption and Scattering of Light by Small Particles”, Wiley, New York. 1983.
J. Perez-Juste, P. Mulvaney, L.M. Liz-Marzan, “Patterning and encryption using gold nanoparticles”, International Journal of Nanotechnology., vol. 4, no. 3, pp. 215-225, 2007.
I.I.S. Lim and C.-J. Zhong, “Molecularly-mediated assembly of gold nanoparticles”, Gold Bulletin. vol. 40, no.1, pp.59-66, 2007.
G. Zoriniants and W.L. Barnes, “Fluorescence enhancement through modified dye molecule absorption associated with the localized surface plasmon resonances of metallic dimmers”, New J. Phys., vol. 10, pp. 105002, 2008.
M. Eichelbaum, B.E. Schmidt and H.I. Rademann, “Three-photon-induced luminescence of gold nanoparticles embedded in and located on the surface of glassy nanolayers”, Nanotechnology, vol.18, no.35 pp. 355702, 2008.
B.M. Mastiholi, V.B. Tangod and U.S. Raikar, Optik, “Influence of metal nanoparticles on ADS560EI fluorescent laser dye”, Int. J. Light Electron Opt., vol.124, no. 3, pp. 261-264, 2013.
A. Kawski, P. Bojarski and B. Kuklinski, “Estimation of ground- and excited-state dipole moments of Nile Red dye from solvatochromic effect on absorption and fluorescence spectra”, Chemical Physics Letters, vol. 463, pp. 410-412, 2008.
A. Kawski, B. Kuklinski and P. Bojarski, “Photophysical properties and thermochromic shifts of electronic spectra of Nile Red in selected solvents. Excited states dipole moments”, Chem. Phys., vol.359, no. 1-3, 58-63. 2009.
M. Umadevi, N.A. Sridevi, A.S. Sharmila, B.J.M. Rajkumar, B. Mary, P.Vanelle, T. Terme and O. Khoumeri, “Influence of Silver Nanoparticles on 2,3-Bis(Chloromethyl)Anthracene-1,4,9,10-Tetraone”, Journal of Fluorescence, vol. 20, no. 153-161, 2010.
T. Forster, Zwischenmolekulare Energiewanderung und Fluoreszenz, “Zwischenmolekulare Energiewanderung und Fluoreszenz”, Ann. Physik., vol. 2, pp.55, 1948.
J. Zhu, J. Li, A. Wang, Y. Chen and J. Zhao, “Fluorescence Quenching of Alpha-Fetoprotein by Gold Nanoparticles: Effect of Dielectric Shell on Non-Radiative Decay”, Nanoscale Res. Lett., vol.5, pp.1496, 2010.
S.T. Dadami, S. Rayaprol, V. Sathe and B. Angadi, “Electric field induced structural, magnetic and ferroelectric properties of 0.6 PbFe0.5Nb0.5O3-0.4BiFeO3 multiferroic solid solution”, Ceramics International, vol. 46, no.17, pp. 27595-27600, 2020.
S.T. Dadami, I. Shivaraja, S.K. Deshpande, S Rayaprol and B Angadi, “BiFeO3 induced enhancement in multiferroic properties of PbFe0.5Nb0.5O3,” Ceramics International, vol. 44, no.16, pp. 20449-20456, 2018.
M.N. Taj, B.D. Prasad, R. Narapareddy, H. Nagabhushana, G Ramakrishna, B Mahesh and S.T. Dadami, “PANI-molybdate nanocomposites: Structural, morphological and dielectric properties for the effective electromagnetic interference (EMI) shielding applications in X-band”, Applied Surface Science Advances, vol. 7, pp. 100203, 2022.
H. Xu and K.S. Suslick, “Water-Soluble Fluorescent Silver Nanoclusters”, Adv. Materials, vol.22, pp. 1078-1082, 2010.
S. Mannopantara, H.H. Bendigeri, V.K. Kulkarni, V.S. Patil, D.H. Manjunatha and M.N. Kalas, “Preparation of colloidal Ag nanoparticles”, Materials Today, vol. 60, pp. 1156-1159, 2022.
