References
- Chem. Phys. v.28 Kinetics of partly diffusion controlled reactions.Ⅰ.Transient and apparent transient effect in fluorescence quenching Andre, J. C.;M. Niclause;W. R. Ware
- Chem. Phys. Lett. v.140 Fluorescence quenching of carbozole and indole by ethylenetrithiocarbonate Roy, R.;S. Mukherjee
- J. Photochem. Photobiol. A: Chem. v.71 Static and dynamic model for 1-napthol fluorescence quenching by carbontetracholride in dioxan-acetonitrile mixtures Behera, P. K.;A. K. Mishra
- Bull. Chem. Soc. Jpn. v.57 Excited-state reactions of coumarins in aqueous solutions.II. The fluorescence quenching of 7-ethoxy Moriya, T.
- Appl. Radiat. and Isot. v.47 Effect of solvent on the fluorescence quenching of organic liquid scintillators by aniline and carbon tetrachloride Giraddi, T. P.;J. S. Kadadevarmath;G. H. Malimath;G. C. Chikkur
- J. Chem. Phys. v.62 Kinetics of diffusion controlled reactions: Transient effects in fluorescence quenching Nemzek, T. L.;W. R. Ware
- J. Chem. Phys. v.48 Fluorescence quenching via charge transfer: The perylene-N, N-dimethylamiline system Ware, W. R.;H. P. Richter
- Chem. Phys. Lett. v.124 An experimental method of determining the electronic excitation energy migration coefficient in organic liquids Mathad. R. D.;N. Umakantha
- Radiation Measurements(USA) v.26 Electronic excitation energy quenching of an organic liquid scintillator by carbon tetrachloride in different solvents Kadadevarmath, J. S.;T. P. Giraddi;G. H. Malimath;G. C. Chikkur
- Ind. J. Pure. & Appl. Phys. v.34 Quenching of 2-Phenylindole by carbon tetrachloride and aniline in different solvents Giraddi, T. P.;J. S. Kadadevarmath;G. H. Malimath;G. C. Chikkur
- J. Chem. Phys. v.84 Electronic excitation energy transfer in organic liquid scintillators Mathad, R. D.;G. C. Chikkur;N. Umakantha
- Phys. Lett. v.108A On the mechanism of electronic excitation energy migration in organic liquids Mathad, R. D.;N. Umakantha
- Phys. Lett A. v.117 On the mechanism of intermolecular energy transfer encounter in organic liquids Mathad, R. D.;N. Umakantha
- Photochem. Photobiol. v.51 Fluorescence quenching of indolic compounds in reverse micells of AOT Lissi, E. A.;M. V. Encinas;S. G. Birtolotti;J. J. Cosa;C. M. Previtali
- J. Chem. Soc. Faraday Trans. v.91 Solubilization of two cyano 3H-indole molecular probes in CDS and CTAB micelles: Spectral and photophysical characterization Nigam, S.;M. Belletete;R. S. Sarpal;G. Durocher
- J. Lumin. v.63 Analysis of fluorescence quenching in some antioxidants from nonlinear Stern-Volmer plots Zeng, H.;G. Durocher
- Z. Phys. v.69 Sphere of action of the extinction phenomena in fluorescent liquids Frank, J. M.;S. J. Wawilow
- J. Phys. Chem. v.69 Thermodynamic data from fluorescnce spectra Ⅰ. The system phenol-acetate Moon, A. Y.;D. C. Poland;H. A. Scheraga
- Molecular Volumes and Parachor.(Chem. Ind.) Molecular Volumes and Parachor Edward, J. T.
- Proc. Phys. Soc.(London) v.3 Energy transfer in organic systems Ⅷ. Quenching of naphthalene fluorescence by biacetyl Birks, J. B.;Salete;S. C. P. Leite
- J. Chem. Soc. Faraday Trans. v.1172 Quenching of fluorescence by oxygen Lewis, C.;W. R. Ware
- J. Phys. Chem. v.86 Nonequilibrium stastical thermodynamics and the effect of diffusion on chemical reaction rates Keizer, J.
- J. Am. Chem. Soc. v.107 Nonlinear fluorescence quenching and the orgin of positive curvature in stern-Volmer plots Keizer, J.
- Chem. Rev. v.87 Diffusion effects on rapid bimolecular chimical reactions Keizer, J.
- J. Phys. Chem. v.94 Diffusion controlled reactions : Transient effects in the fluorescence quenching of indole and Nacetyltryptophanamide in water Joshi, G. C.;R. Bhatnagar;S. Doraiswamy;N. Periasamy