1976.      75. Q. H. Lao, P. E. Schoen and B. Chu, “Zero‑Crossing Signal Averaging Scheme for Fabry‑Perot Interferometry,” Rev. Sci. Instr., 47, 418 (1976).

 

                76. F. C. Chen, A. Chrzeszczyk and B. Chu, “Quasielastic Laser Light Scattering of Phosphatidylcholine Vesicles,” J. Chem. Phys., 64, 3403 (1976).

 

                77. Q. H. Lao, P. E. Schoen and B. Chu, “Rayleigh‑Brillouin Scattering of Gases with Internal Relaxation,” J. Chem. Phys., 64, 3547 (1976).

 

                78. Q. H. Lao, P. E. Schoen, B. Chu and D. A. Jackson, “Rayleigh‑Brillouin Scattering in Gaseous Mixtures He‑Kr and Ar‑Kr,” J. Chem. Phys., 64, 5013 (1976).

 

                79.  F. C. Chen, S. I. Tu and B. Chu, “Characterization of Phosphatidylcholine Vesicles by Quasielastic Laser Light Scattering,” Proceedings of the International Conference on Colloids and Surfaces, San Juan, Puerto Rico, June 21‑25, 1976, Academic Press.  Colloid and Interface Science, 5, 63 (1976).

 

   80.   F. C. Chen, A. Yeh and B. Chu, “Diffusion Coefficients of Histone (Lysine Rich) by Quasielastic Laser Scattering,” J. Chem. Phys., 65, 4508 (1976).

 

1977.      81.  S. Jen, J. Shook and B. Chu, “An Add‑Subtract Digital Correlator,” Rev. Sci. Instrum., 48, 414 (1977).

 

    82.     F. C. Chen, A. Yeh and B. Chu, “Dynamics of Calf‑Thymus DNA by Single-Clipped Photon  Correlation,” J. Chem. Phys., 66, 1290 (1977).

 

                83.* F. C. Chen, A. Chrzeszczyk and B. Chu, “Quasielastic Laser Light Scattering of Monolayer Vesicles,” J. Chem. Phys., 66, 2237 (1977).

 

                 84.* F. C. Chen and B. Chu, “Dynamics of Mouse‑Liver DNA by Single‑Clipped Photon Correlation,” J. Chem. Phys., 66, 2235 (1977).

 

     85. S. Fujime, F. C. Chen, B. Chu and T. Y. Liu, “Characterization of Meningococcal    Polysaccharides by Optical Mixing Spectroscopy.  II. Effects of Temperature, EDTA, and Ionic Strength on Aggregation of Group‑C Polysaccharides in Solution,” Biopolymers, 16, 945 (1977).

 

    86. Erdogan Gulari and B. Chu, “Photon Correlation in the Nanosecond Range and its Applications to the Evaluation of RCA C31034 Photomultiplier Tubes,” Rev. Sci. Instr., 48, 1560 (1977).

 

1978.      87. Y. Tsunashima, K. Moro, B. Chu and T. Y. Liu, “Characterization of Group C Meningococcal Polysaccharides by Light‑Scattering Spectroscopy. III. Determination of Molecular Weight, Radius of Gyration and Translational Diffusion Coefficient,” Biopolymers, 17, 251 (1978).

 

    88. A. Patkowski and B. Chu, “Intensity Fluctuation Spectroscopy and Transfer RNA Conformation. I Melting Curves,” J. Colloid and Interface Sci., 63, 235 (1978).

 

    89. A. Patkowski, S. Jen and B. Chu, “Intensity Fluctuation Spectroscopy and tRNA Conformation. II.Changes of Size and Shape of tRNA in the Melting Process,” Biopolymers, 17, 2643 (1978).

 

    90. K. Ohbayashi and B. Chu, “Light Scattering Near the Plait Point of a Ternary Liquid Mixture: Ethanol-Water-Chloroform,” J. Chem. Phys., 68, 5066 (1978).

 

     91.     M. Nakata, T. Dobashi, N. Kuwahara, M. Kaneko and B. Chu, “Coexistence Curve and Diameter of Polystyrene in Cyclohexane,” Phys. Rev., A18, 2683 (1978).

 

1979.     92. Esin Gulari, Erdogan Gulari, Y. Tsunashima and B. Chu, “Photon Correlation Spectroscopy of Particle Distributions,” J. Chem. Phys., 70, 3965 (1979).

 

     93.     B. Chu, Esin Gulari and Erdogan Gulari, “Photon Correlation Measurements of Colloidal Size Distributions. II. Details of Histogram Approach and Comparison of Methods of Data Analysis,” Physica Scripta, 19, 476 (1979).

 

                94.*B. Chu and T. Nose, “Static and Dynamical Properties of Polystyrene in Transdecalin,”Macromolecules, 12, 347 (1979).

 

                95. Erdogan Gulari, Esin Gulari, Y. Tsunashima and B. Chu, “Polymer Diffusion in a Dilute Theta Solution. 1. Polystyrene in Cyclohexane,” Polymer, 20, 347 (1979).

 

                96. B. Chu and Esin Gulari, “Polymer Diffusion in a Dilute Solution. 2. Poly bis(m‑chlorophenoxy) phosphazene in Chloroform,” Macromolecules, 12, 445 (1979).

 

                97.*T. Nose and B. Chu, “Hydrodynamic and Gel Modes of a Concentrated Solution of Low Molecular Weight Polystyrene in Transdecalin,” J. Chem. Phys., 70, 5332 (1979).

 

                98. A. Patkowski and B. Chu, “Intensity Fluctuation Spectroscopy and Transfer RNA Conformation. III. Influence of NaCl Concentration of the Size and Shape of the Initially Salt‑Free tRNA in Solution,” Biopolymers, 18, 2051 (1979).

 

                99. T. Nose and B. Chu, “Static and Dynamical Properties of Polystyrene in Transdecalin. 1. NBS 705 Standard Near Theta Conditions,” Macromolecules, 12, 590 (1979).

 

    100.  B. Chu and T. Nose, “Static and Dynamical Properties of Polystyrene in Transdecalin. 2. Correlation Function Profile Analysis by the Histogram Method, Macromolecules, 12, 599 (1979).

 

     101.  *M. Kochi, Er. Gulari and B. Chu, “Rotational Relaxation Time of tRNA, J. Chem. Phys., 71, 4172 (1979).

 

      102. Es. Gulari, B. Chu and T. Y. Liu, “Characterization of Meningococcal Polysaccharides by Light- Scattering Spectroscopy.  IV. Molecular Weight Distribution of Group B Meningococcal Polysaccharide in Buffer Solution,” Biopolymers, 18, 2943 (1979).

 

               103. T. Nose and B. Chu, “Static and Dynamical Properties of Polystyrene in Transdecalin. 3. Polymer Diffusion in      Dilute Solution in the Transition Region,” Macromolecules, 12, 1122 (1979).

 

1980.      104. B. Chu and T. Nose, “Static and Dynamical Properties of Polystyrene in Transdecalin. 4. Osmotic Compressibility, Characteristic Lengths, Internal and Pseudogel Motions in the Semidilute Regime,”  Macromolecules, 13, 122 (1980).

 

                105. Er. Gulari, B. Chu and D. Woermann, “Critical Exponents of a Fluid Mixture in the Presence of Isotope              Exchange: Isobutyric Acid/D O,” J. Chem. Phys., 73, 2480 (1980).

 

               106.*Y.-H. Lin and B. Chu, “Observation of a Pseudo‑Transition Phenomenon Between Dilute and Semidilute           Regimes in a Polymer Solution,” Macromolecules, 13, 1025 (1980).

 

   107. A. Patkowski and B. Chu, “Studies of Protein‑Nucleic Acid Interactions by Photon Correlation Spectroscopy.  I.      tRNA‑BSA Interactions at Low Ionic Strength,” J. Chem. Phys., 73, 3082 (1980).

 

               108. A. Patkowski, Er. Gulari and B. Chu, “Long‑Range tRNA‑tRNA Electrostatic Interactions in Salt‑Free and Low-Salt tRNA Solutions,” J. Chem. Phys., 73, 4178 (1980).

 

               109. R. Schneider, L. Belkoura, J. Schelten, D. Woermann and B. Chu, “Determination of the Critical Exponent h by   Neutron and Light Scattering from a Binary Liquid Mixture,” Phys. Rev., B22, 5507 (1980).

 

               110. B. Chu, Y.-H. Lin, A. DiNapoli, T. Nose and N. Kuwahara, “Light Scattering Studies of Polymer Phase Transitions,” Ferroelectrics, 30, 255 (1980).

 

1981.    111. G. Fytas, Y.‑H. Lin and B. Chu, “Rayleigh‑Brillouin Spectra of Polymer Fluids: Polyphenylmethyl  Siloxane and Polydimethylphenyl‑methyl Siloxane,” J. Chem. Phys., 74, 3131 (1981).

 

               112. A. DiNapoli, B. Chu and T. Y. Liu, “Light Scattering Spectroscopy of Meningococcal Polysaccharides,”               American Chemical Society Symposium Series,150, (1981) pp. 173-199.

 

               113. Y.-H. Lin and B. Chu, “Static and Dynamical Properties of Polystyrene in Carbon Tetrachloride. 1.                Characteristic Frequency in the Dilute, Intermediate and Semi‑dilute Regions,” Macromolecules, 14, 385 (1981).

 

     114. B. Chu, K. Kubota, M.‑J. He and Y.‑H. Lin, “Static and Dynamical Properties of Polystyrene in Carbon Tetrachloride. 2. Osmotic Pressure and Radius of Gyration in the Dilute, Intermediate and Semi‑dilute Regions,” Macromolecules, 14, 392 (1981).

 

    115. B. Chu, G. Fytas and G. Zalczer, “Study of Thermal Polymerization of Styrene by Raman Scattering,” Macromolecules, 14, 395 (1981).

 

     116. B. Kalbskof, D. Woermann, B. Chu and Erdogan Gulari, “Linewidth and Viscosity of Isobutyric Acid‑Deuterium Oxide Mixtures of Critical Composition Above and Below the Phase Separation Temperature,” J. Chem. Phys., 74, 5842 (1981).

 

               117. G. Fytas, Th. Dorfmuller, Y.‑H. Lin and B. Chu, “Photon Correlation Spectroscopy of Bulk Siloxane                Polymers, Macromolecules, 14, 1088 (1981).

 

               118. Y.‑H. Lin, G. Fytas and B. Chu, “Depolarized Rayleigh Spectra of Siloxane Polymers,” J. Chem. Phys., 75,          2091 (1981).

 

               119. E. Gulari and B. Chu, “An Experimental Investigation of Stability of Microemulsions and Polydispersity                Effects Using Light‑Scattering Spectroscopy and Small Angle X‑Ray Scattering,” in Surface Phenomena in        Enhanced Oil Recovery, ed. Dinesh O. Shah, Plenum Press (1981) pp. 181‑197.

 

               120. G. Fytas, Th. Dorfmuller, Y.‑H. Lin and B. Chu, “Dynamics of Bulk Siloxane Polymers” in Structure and               Mobility in Molecular and Atomic Glasses" Annals of New York Academy of Sciences, Vol. l37, edited by J. M. O'Reilly and M. Goldstein (l98l), pp. 30l‑302.

 

               121. K. Abbey, K. Kubota and B. Chu, “Osmotic Compressibility and Linewidth of (NBS 705) Polystyrene in                Methyl Acetate,” Proceedings of NATO ASI on Scattering Techniques, Plenum Press, New York (l98l), pp.77l‑776

 

               122. B. Chu and K. Kubota, “Excimer Fluorescence as a Molecular Probe of Spinodal Decomposition in               Polymer Fluids,” Macromolecules, 14, 1837 (1981).

 

1982.    123. B. Chu and G. Fytas, “Light Scattering and Spectroscopic Studies of  Polymerization Processes. 2. Thermal  Polymerization of Styrene,” Macromolecules, 15, 561 (1982).

 

               124.*E. R. Gulari, Es. Gulari and B. Chu, “Second Comment on the Histogram Method in Photon Correlation  Spectroscopy Applied in  Dilute Polymer Solutions,” Polymer, 23, 649 (l982).

 

               125. M.‑J. He, K. Kubota, J. Pope and B. Chu, “Static and Dynamical Properties of Polystyrene in Carbon                Tetrachloride. 3. Effects of Freezing on Solution Properties,” Macromolecules, 15, 673 (l982).

 

               126. B. Chu, Es. Gulari, A. DiNapoli, R. Schneerson, J. B. Robbins and T. Y. Liu, “Characterization of Polysaccharide Vaccines,” in Proceedings of the Cambridge Conference on Biomedical Applications of Laser     Light Scattering,” eds. D. B. Sattelle, W. I. Lee and B. R. Ware, Elsevier/North‑Holland Biomedical Press, Amsterdam, New York (l982) pp. 3‑20.

 

               127. B. Chu, A. Patkowski, W. Bujalowski, R. Schneerson and J. B. Robbins, "Haemophilus Influenzae Type b Polysaccharide‑Protein Conjugates. VI. A Light Scattering Spectroscopic Study of Polysaccharide-BSA Conjugates," Biopolymers, 2l, l503 (l982).

 

               128. A. DiNapoli, B. Chu and C. Cha, “Molecular Weight Distributions of Polyacrylamide by Photon Correlation Spectroscopy,” Macromolecules, 15, 1174 (l982).

 

              129. B. Chu, “Laser Light Scattering and Polymer Physics,” KBAHTOBA EKTPOH KA, ISSN 0368‑7l47, TOM 9, l029 (l982).

 

1983.    130. K. Kubota and B. Chu, “Quasielastic Light Scattering of Poly(hexylisocyanate) in Hexane,” Macromolecules, l6, l05 (l983).

 

               131. K. Kubota, K. M. Abbey and B. Chu, “Static and Dynamical Properties  of Polymer Solution with Upper and Lower Critical Solution Points.  NBS‑705 Polystyrene in Methyl Acetate,” Macromolecules, l6, l37 (l983).

 

              132. B. Chu and A. DiNapoli, "Extraction of Distributions of Decay Times in Photon Correlation of Polydisperse Macromolecular Solutions," in Measurement of Suspended Particles by Quasi‑Elastic Light Scattering, edited by Barton Dahneke, John Wiley & Sons (l983) Ch. 3, pp. 8l‑l05.

 

            133. J. R. Ford and B. Chu, "Correlation Function Profile Analysis in Laser Light Scattering. III. An Iterative  Procedure,"in Proceedings of the 5th International Conference on Photon Correlation Techniques in Fluid Mechanics, Springer Series in Optical Sciences, edited by E. O. Schulz‑DuBois, Springer‑Verlag, N.Y. (l983), pp. 303‑3l4

.

              134. K. M. Abbey, J. Shook and B. Chu, "Correlation Function Profile Analysis in Laser Light Scattering. II. A Hybrid       Photon Correlation Spectrometer," in The Application of Laser Light Scattering to the Study of Biological Motion, ed  by J. C. Earnshaw and M. W. Steer, Plenum Press, New York (l983) pp. 77-87.

 

           135. S.-F. Fan, M. M. Dewey, D. Colflesh and B. Chu, "Further Evidence of  Cross Bridge Motions in Limulus Thick Myofilament Suspensions," in The Application of Laser Light Scattering to the Study of Biological Motion, edited by J. C. Earnshaw and M. W. Steer, Plenum Press, New York (l983) pp. 477‑483.

 

          136. K. Kubota, B. Chu, S.‑F. Fan, M. M. Dewey, P. Brink and D. E. Colflesh, Quasi‑elastic Light Scattering of Suspensions of Limulus Thick Myofilaments in Relaxed (long), Activated and Rerelaxed  (short) States, J. Mol. Bio.,166, 329 (1983).

 

            137. K. Kubota and B. Chu, “Laser Light Scattering of PBLG in DMF,” Biopolymers,22, l46l (l983).

 

            138. B. Chu, J. R. Ford and J. Pope, "Light Scattering Characterization  of  Molecular Weight Distributions," in Conference Proceedings of the Society of Plastic Engineers, ANTEC 83, 26, 547 (l983).

 

             139. B. Chu, I. H. Park and J. R. Ford, Polym. Prepr. (Am. Chem. Soc., Div.  Polym. Chem.)24, 237 (l983); B.  Chu and I. H. Park, "A Prism Light  Scattering Cell,"in Proceedings of the l982 Scientific Conference on Chemical Defense Research, Special Publication ARCSL- SP- 83030, I79 (l983)

 

              140. J. P. Kratohvil, T. M. Aminabhavi, W. P. Hsu, S. Fujime, A. Patkowski, F. C. Chen and B. Chu,  Hydrodynamic Properties of  Micelles of Dihydroxy Bile Salts:  Sodium Taurodeoxycholate and  Sodium Glycodeoxycholate, Croatica Chemica Acta, Yugoslavia, 56, 789  (l983).

 

Page 01| 02 | 03 | 04 | 05| 0607 | < >

BACK

HOME