GUIDE TO FLUORESCENCE LITERATURE GUIDE TO FLUORESCENCE LITERATURE Richard A. Passwater Product Manager of Fluorescence Instrumentation American Instrument Company Silver Spring, Maryland With the Assistance of Jarratt G. Bennett and Barbara G. Pass water 1:1 PLENUM PRESS DATA DIVISION • NEW YORK· 1967 Library of Congress Catalog Card Number 67-18075 ISBN-13: 978-1-4684-6197-8 e-ISBN-13: 978-1-4684-6195-4 DOl: 10.1007/978-1-4684-6195-4 © 1967 Plenum Press Data Division Softcover reprint of the hardcover 1st edition 1967 A Division of Plenum Publishing Corporation 227 West 17 Street,New York, N. Y.10011 All rights reserved No part of this publication may be reproduced in any form without written permission from the publisher PREFACE The major reason forpresentingabiblio ultraviolet light, or which make only a casual graphy on fluorescence and phosphorescence reference to the fluorescence technique were can be summed up in one statement: A recent usually rejected. However, occasionally survey showed that twenty-two percent of all papers of this nature were included because chemical and clinical research was uninten fluorescence methods seem to have unusual tionally duplicated. A comprehensive source potential for the problems discussed. Again, book of fluorescence and phosphorescence if pertinent papers were missed the authors techniques is therefore needed not only to would be grateful to have these omissions suggest ideas for future research, but to help called to their attention. decrease needless duplication and expense, The abbreviations of journal names em and thus to promote the development of both ployed in this Guide are those used by disciplines. Chemical Abstracts. Each paper has been The authors hope that researchers new given an alpha-numericalidentification. Sec to fluorescence techniques will appreciate tion A contains papers published in theyears the convenience of this Guide for obtaining 1950-1953, section B the years 1954-1956, data which otherwise could be found only by section C the years 1957-1959, and section reviewing dozens of papers, many difficult to D the years 1960-1964. Section E contains find, and that old hands will find ita valuable papers missed in the original compilation. reference work that will save them many Within each section the papers are arranged hours and help them to reduce the expense first by year and within each year in alpha of research (ASTM estimates that more than betical order of the senior authors. The one billion dollars is spent each year for numeration in each section is continuous and searching the literature). independent of the others. Naturally, any work that involves as many The indexes employ the alpha-numerical technical terms, arbitrary numbers, and pro designations rather than page numbers. The per names as this Guide is subject to error author index is a strictly alphabetical listing both in the process of organization and in the of all authors, including junior as well as final transcription. Months of proofreading senior authors. The subject index does not and correction have been devoted to finding contain entries under" Fluorescence," "Phos these errors, but inevitably some still re phorescence'" "Energy transfer," and "Spec main. The authors would appreciate having tra," since these would have been so volu these errors called to their attention so that minous as to be practically useless. Also, future editions of the Guide can be made even to simplify the index, inorganiC compounds more accurate. have not been indexed as such, and the The 4800 papers listed in this volume pertinent papers will be found under the in represent only a fraction of the papers con dividual elements instead. The indexing of sidered. The criterion for inclusion was the organic compounds is more detailed, but even presence of substantial information pertinent here it would not have been practical to list to fluorescence or phosphorescence techni all the many different compounds mentioned ques, and papers which, for example, only in article titles. In looking for an organiC mention that a compound fluorescence under compound, the reader is advised to seek the specific compound first. If it is not listed, accomplish its objective and facilitate the he should next look for a somewhat more retrieval of information now buried in the general classification of compounds that in voluminous literature of fluorescence and cludes the desired one. This step may be phosphorescence and will welcome any sug repeated. if necessary, working from the gestions readers may wish to offer to im specific compound toward the general class prove its organization or enlarge its scope. to which it belongs. The authors hope that this Guide will Richard Passwater CONTENTS The Guide Section A (1950-1953) • • • • • • • • • • • • • • • • • • • • • • • • 1 Section B (1954-1956) • • • • • • • • • • • • • • • • • • • • • • • • 42 Section C (1957-1959) • • • • • • • • • • • • • • • • • • • • • • • • 82 Section D (1960-1964) • • • • • • • • • • • • • • • • • • • • • • •• 138 Section E (1953-1964) • • • • • • • • • • • • • • • • • • • • • • •• 275 Author Index. • • • • • • • • • • • • • • • • • • • • • • • • • • • • • •• 295 Subject Index. • • • • • • • • • • • • • • • • • • • • . • • • • • • • . •. 347 Al A14 (1950-1953) A 1 Scintillations in liquids and solutions. A 8 Fluorescence studies of some simple Ageno, M., Chiozzotto, M., and Querzoli, benzene derivatives in the near ultra R. violet. n. Toluene and benzonitrile. Phys. Rev. 79: 720 (1950) Bass,A.M. CA 44: 9810h J. Chem. phys. 18: 1403-10 (1950) CA 45: 949h A 2 Fluorescence method for determination of oil fogs. A 9 Fluorescence spectra of natural estrogens Alekseeva, M.V., and Gol'dina, Ts.A. and their application to biological ex Zavodsk. Lab. 16: 35-6 (1950) tracts. CA 44: 6608e Bates, R.W., and Cohen, H. Endocrinology 47: 182-92 (1950) A 3 Relation between the Franck-Condon fre CA 45: 6239bd quencies of absorption and fluorescence for some unsaturated hydrocarbons. A 10 Optical bleaches. Altmaun, S.L. Bayley, C.H. Proc. Phys. Soc. 63A: 1234-40 (1950) Textile J. Australia 25(1): 28,30,32, 34, CA 45: 4561d and 36 (1950) CA 44: 6134b A 4 Bacterial pyrogenic substances, especial ly their nature from the viewpoint of A 11 Abnormal efficiencies in the fluorescence reaction. scintillation-counting of ,,-rays. Aoyama, K. Belcher, E.H. Bull. Natl. Hyg. Lab., Tokyo 68: 127-37 Nature 166: 742-3 (1950) (1950) CA 45: 2320h CA 48: 13159i A 12 Fluorescence of crystalline magnesium A 5 The phosphorescence of quartz. oxide. Audubert, R., Bonnemay, M., and Lautout, Bhagavantam, S., and Puranik, P.G. M. Current Sci. 19: 241 (1950) Compt. Rend. 230: 1771-2 (1950) CA 45: 453f CA 44: 8243a A 13 The constituents of Chana (Cicer arieti A 6 Fluorescent reagents. Acyl chlorides and num, Linn.). m. Chemical examina acyl hydrazides. tion of the fixed oils from Chana and Baker, W., Haksar, C.N., and McOmie, Kabuli Chana (ordinary and white varie J.F.W. ties). J. Chem. Soc. 1950: 170-3 (1950) Bhandari, P.R., Bose, J.L., and Siddiqui, CA 44: 4875b S. J. Sci. Ind. Res. 9B(3): 60-3 (1950) A 7 Fluorescence studies of some simple ben CA 44: 7570b zene derivatives in the near ultraviolet. I. Fluorbenzene and chlorobenzene. A 14 Origin of fluorescence in diamond. Bass, A.M., and Sponer, H. Bishu!, B.M. J. Opt. Soc. Am. 40: 389-96 (1950) Indian J. Phys. 24: 441-60 (1950) CA 44: 7153b CA 45: 6931e A15 2 A 15 The quenching of fluorescence. Devia- A 23 Photographic emulsion. tions from the Stern-Volmer law. Clark, L.E. Boaz, H., and Rollefson, G.K. U.S. 2,511,462 (1950) J. Am. Chem. Soc. 72: 3435-43 (1950) CA 44: 7696f CA 44: 10519g A 24 Characteristic example of retrapping in A 16 Coriolis perturbation in the ultraviolet phosphorescence. spectrum of formaldehyde. Curie, D. Brand, J.C.D. Nature 166: 70 (1950) Trans. Faraday Soc. 46: 805-12 (1950) CA 44: 9804g CA 45: 2774h A 25 The mechanism of phosphorescence in A 17 Fluorescence and the Beer-Lambert crystals. law. A note on the technique of absorp Curie, D. tion spectrophotometry. J. Phys. Radium 11: 179-85 (1950) Braude, E.A., Fawcett, J.S., and Timmons, CA 44: 7658c C.J. J. Chem. Soc. 1950: 1019-21 (1950) A 26 Experimental proof of electronic recap CA 44: 10519b ture in crystalline phosphorescent sul fides. A 18 Spectrophotometric investigations on the Curie, D. fluorescence of the eye lens in rats Compt. Rend. 230: 1400-2 (1950) given naphthalene. CA 44: 6278f Brolin, S.E. Acta Ophthalmol. 28: 163-77 (1950) A 27 Fluorescence of normal human blood CA 45: 6289i serum. De Lerma, B. A 19 Quantitative measurements on the ele Rend. Accad. Sci. Fis. Mat. (Napoli) 17: mentary process of light excitation 62-7 (1950) from phosphors by single alpha CA 46: 3150c particles. I. Broser, I., Kallmann, H., and Reuber, C. A 28 Examination of the surface of metallur- Z. Naturforsch. 5a: 79-85 (1950) gical bodies by fluorescence. CA 44: 6279a Deribere, M. Rev. Met. 47: 704-5 (1950) A 20 Quantitative fluorescence of blood serum CA 45: 512c in nervous, particularly schizophrenic patients. A 29 Effect of temperature on the transient Buscaino, G.A. illumination of phosphorescent sulfides Acta Neurol. 5: 686-708 (1950) submitted to the action of electric CA 46: 3150d fields. Destriau, G. A 21 Suitability of inorganic substances as Compt. Rend. 230: 205-6 (1950) ground material for organophosphors. CA 44: 3798b Chomse, H. Forsch. Fortschr. 26: 32 (1950) A 30 Recent progress in spectrochemistry of CA 46: 5975g fluorescence from biological products. Dhere, C. A 22 OrganiC phosphors with inorganic car- Fortschr. Chem. Org. Naturstoffe 6: rier. V. Arsenic trioxide phosphors. 311-56 (1950) Chomse, H., and Schone, E. CA 45: 693f Z. Anorg. Chem. 261: 153-6 (1950) CA 44: 7152h A 31 Phosphorescence of vapors of phenan- threne. Dikun, P.P. Zh. Eksperim. i Teor. Fiz. 20: 193-8 (1950) CA 44: 6728e 3 A 47 A 32 Variation of the decay time of the fluor A 39 Transfers of energy between active escence of anthracene and stilbene nitrogen and sodium, potassium, and with temperature. antimony. Elliot, J .0., Liebson, S.H., and Ravilious, Finkelstein, A. C.F. Compt. Rend. 231: 341-2 (1950) Phys. Rev. 79: 393 (1950) CA 45: 1425h CA 44: 8775h A 40 The fluorescence of adrenaline and A 33 Electron transport and stabilization in adrenochrome. the reaction between dienes and philo Fischer, P., and Bacq, Z.M. dienes. I. Exptl. Med. Surg. 8: 104-12 (1950) Euler, H.V., and Hasselquist, H. CA 44: 10519d Arkiv Kemi 2: 367-72 (1950) CA 45: 1989c A 41 Adrenochrome. I. Fluorescence and cations. A 34 Influence of extraneous molecules on the Fischer, P., Derouaux, G., Lambot, H., absorption and fluorescence spectrum and Lecomte, J. of magnesium phthalocyanine and of Bull. Soc. Chim. Belges 59: 72-82 (1950) chlorophyll in solution. CA 44: 7309b Evstigneev, V.B., Gavrilova, V.A., and Krasnovskii, A.A. Dokl. Akad. Nauk SSSR 70: 261-4 (1950) A 42 Dependence of emission spectra of phos CA 45: 3720i phors upon activator concentration and temperature. A 35 Quenching of the fluorescence of chloro Fonda, G.R. phyll and of magnesium phthalocyanin J. Opt. Soc. Am. 40: 347-52 (1950) in their interaction with quenchers. CA 44: 7151a Evstigneev, V.B., Gavrilova, V.A., and Krasnovskii, A.A. A 43 Fluorometric determination of acetol. Dokl. Akad. Nauk SSSR 74: 315-18 (1950) Forist, A.A., and Speck, J.C. CA 45: 1872a Anal. Chem. 22: 902-4 (1950) CA 44: 9869c A 36 The fluorescence of silver halides at low temperatures. I. The pure halides. A 44 Electrolytic dissociation of excited Farnell, G.C., Burton, P.C., and Hallama, molecules. R. Forster, T. Phil. Mag. 41: 157-68 (1950) Z. Elektrochem. 54: 42-6 (1950) CA 44: 6277b CA 44: 6280c A 37 Fluorescence of silver halides at low temperatures. II. Mixed crystals of A 45 Influence of pH on the fluorescence of silver halides. naphthalene derivatives. Farnell, G.C., Burton, P.C., and Hallama, Forster, T. R. Z. Elektrochem. 54: 531-5 (1950) Phil. Mag. 41: 545-56. (1950) CA 45: 5515c CA 45: 453d A 46 Fluorescent substances for mercury- A 38 The fluorescence of the salts of vapor electric lamp. 8-quinolinol. Fujimori, A., and Maekawa, S. Feigl, F., Torok, C., and Zocher, H. Japan 2823 (1950) Anais Assoc. Brasil. Quim. 9: 21-7 (1950) CA 46: 9998c CA 46: 5438e A 47 Fluorescent reactions. II. Light fluor escent reaction of oxidative fluorescent molecule. Fujimori, E. J. Chem. Soc. Japan 71: 491-3 (1950) CA 45: 6492f A 48 4 A 48 Fluorescence of magnesium phthalocya A 55 The quantum yields of fluorescence and nine and of chlorophyll in different phosphorescence of some organic com states. Effect of oxygen on the fluores pounds. cence of magI1esium phthalocyanine and Gilmore, E.H., and McClure, D.S. of chlorophyll in the absorbed state. Phys. Rev. 81: 651 (1950) Gachkovskii, V.F. CA 46: 6925f Dokl. Akad. Nauk SSSR 70: 51-4 (1950) CA 45: 3720c A 56 Color reaction of tryptophan with alde- hydes. A 49 Fluorescence of magnesium phthalocya Giral, J., and Laguna, J. nine and chlorophyll in different states. Ciencia 10: 83-4 (1950) Complex structure of the main maxi CA 44: 10605g mum in the fluorescence spectrum. Gachkovskii, V.F. A 57 Fluorescence of coumarin derivatives as Dokl. Akad. Nauk SSSR 71: 509-11 (1950) a function of pH. CA 44: 5218e Goodwin, R.H., and Kavanagh, F. Arch. Biochem. 27: 152-73 (1950) A 50 Fluorescence of magnesium phthalocya CA 44: 1051ge nine in complex formation with other molecules in the adsorbed state. A 58 Quenching of fluorescence in liquid Gachkovskii, V.F. solution. Dokl. Akad. Nauk SSSR 73: 963-6 (1950) Grand, S., Collins, F .C., and Kimball, G.E. CA 45: 41b Phys. Rev. 82: 338 (1950) CA 46: 6926a A 51 Fluorescence of magnesium phthalocya nine and chlorophyll in different states. A 59 Influence of oxidation state of fluores Structure of the absorption and fluores cence centers on the luminescent color cence spectra of lI!agnesium porphyrin of zinc sulfide activated with copper. and chlorophyll. Grillot, E., and Bancie-Grillot, M. Gachkovskii, V.F. Compt. Rend. 231: 966-8 (1950) Dokl. Akad. Nauk SSSR 75: 407-10 (1950) CA 45: 3718e CA 45: 3248b A 52 Effect of the temperature on the duration A 60 The luminescence of phosphors of the of luminescence of fluorescein solutions.. aluminum oxide-calcium fluoride type Galanin, M.D. activated with manganese. Dokl. Akad. Nauk SSSR 70: 989-90 (1950) Gunther, G., Anderson, G., and Perlitz, H. CA 44: 4789h Arkiv Kemi 1: 565-72 (1950) CA 44: 7152f A 53 Measurement of the duration of fluores- cence with a "phase fluorometer." A 61 Comparison of the relaxations of photo Galanin, M.D. conductivity and of phosphorescence. Dokl. Akad. Nauk SSSR 73: 925-7 (1950) Gurevich, D.B., Tolstoi, N.A., and CA 45: 6062b Feofilov, P.P. Zh. Eksperim. i Teor. Fiz. 20: 1039-46 (1950) A 54 Duration of the excited state of a mole CA 45: 2770b cule and the properties of fluorescent solutions. Galanin, M.D. A 62 The fluorescence spectra of uranium Tr. Fiz. Inst. Akad. Nauk SSSR 5: 339-86 minerals in filtered ultraviolet light. (1950) Haberlandt, H., Hernegger, F., and CA 49: 2873a Scheminsky, F. Spectrochim. Acta 4: 21-35 (1950) CA 44: 7152i