Publications -C-
  • Cadwallader, L.C. and Herring, J.S., "Safety Issues with Hydrogen as a Vehicle Fuel", Idaho National Engineering and Environmental Laboratory, INEEL/EXT-99-000522, Sept. 1999.Link to publication
    Cailletet, L., Hautefeuille, P., C. R. Hebd. Seances Acad. Sci., 1881, 92: p. 1086-90.
  • Calado, J.C.G. and L.A.K. Staveley, The triple-point temperature and pressure of hydrogen bromide, and the vapour pressure of the liquid to about 205 K. J. Chem. Thermodyn., 1978. 10(9): p. 897-9.
  • Calado, J. C. G., Streett, W. B., Liquid-vapor equilibrium in the system h(2) + ar at temperatures from 83 to 141 k and pressures to 52 mpa, Fluid Phase Equilib., 1979, 2: p. 275.
  • Caldwell, L., Diffusion coefficient of naphthalene in air and hydrogen. J. Chem. Eng. Data, 1984. 29: p. 60-2.
  • Camani, M., Effective cross sections in ortho-parahydrogen mixtures (in German). Helv. Phys. Acta, 1971. 44(4): p. 437-50.
  • Camky, P., D. White, and H.L. Johnston, Joule-Thomson effects in compressed gaseous hydrogen. 1952: Ohio State Univ., Columbus, Tech. Rep. TR 264-18, 46 pp.
  • Camky, P., D. White, and H.L. Johnston, Joule-Thomson effects in deuterium. 1953: Ohio State Univ., Columbus, Tech. Rep. TR 436-5, 16 pp.
  • Camky, P., D. White, and H.L. Johnston, Thermodynamic properties of deuterium calculated from Joule-Thomson effects. 1953: Ohio State Univ., Columbus, Tech. Rep. TR 436-6, 20 pp.
  • Campbell, C.E. and J.G. Zabolitzky, Liquid metallic hydrogen. Phys. Rev. B, 1984. 29(1): p. 123-9.
  • Canjar, L.N., et al., Thermo properties of non-hydrocarbons. Part 4: thermodynamic properties of hydrogen. Hydrocarbon Process. Pet. Refiner, 1966. 45(2): p. 161-4.
  • Capitelli, M., et al., Electronically excited states and transport properties of thermal plasmas: the viscosity. Chemical Physics Letters, 2003. 379(5-6): p. 490-494.
  • Capitelli, M., et al., Transport properties of local thermodynamic equilibrium hydrogen plasmas including electronically excited states. Physical Review E, 2004. 69(2).
  • Caras, G.J., Slush hydrogen. 1964: Redstone Sci. Inform. Center, Rep. RSIC-288, 51 pp.
  • Cardamone, M.J. and D.P. Eastman, Measurement of the mutual diffusion constant of hydrogen in methane by means of spontaneous light scattering. J. Chem. Phys., 1973. 59(1): p. 553-4.
  • Carlsson, A.E. and N.W. Ashcroft, Liquidlike state of dense hydrogen. Phys. Rev. B, 1984. 29(1): p. 479-80.
  • Carneiro, K., M. Nielsen, and J.P. McTague, Collective excitations in liquid hydrogen observed by coherent neutron scattering. Phys. Rev. Lett., 1973. 30(11): p. 481-5.
  • Carneiro, K.C., The dynamics of liquid hydrogen and liquid nitrogen studied by inelastic neutron scattering. 1974: Dan. At. Energy Commis., Res. Establ. Riso, Rep. 308, 54 pp.
  • Caron, L.G., Low-temperature thermostatics of face-centered-cubic metallic hydrogen. Phys. Rev. B, 1974. 9(12): p. 5025-38.
  • Caron, L.-G., Metallic hydrogen. Comments Solid State Phys., 1975. 6(5/6): p. 103-15.
  • Carr, W.J., Jr., Electron-phonon interaction and the ground state of metallic hydrogen. Phys. Rev. B, 1985. 31(8): p. 4759-69.
  • Carroll, J.J. and A.E. Mather, Phase equilibrium in the system water-hydrogen sulphide: experimental determination of the LLV locus. Can. J. Chem. Eng., 1989. 67(3): p. 468-70.
  • Carroll, J.J. and A.E. Mather, Phase equilibrium in the system water-hydrogen sulphide: modelling the phase behavior with an equation of state. Can. J. Chem. Eng., 1989. 67(6): p. 999-1003.
  • Carroll, J.J. and A.E. Mather, Phase equilibrium in the system water-hydrogen sulphide hydrate-forming conditions. The Canadian Journal of Chemical Engineering, 1991. 69: p. 1206-1212.
  • Carter, H.G., A consistent-vibrations model of the internal dynamics of liquid hydrogen. 1965: Gen. Dynam., Ft. Worth, Tex., Tech. Rep. WL-TR-64-162, 60 pp.
  • Carter, H.G. and R.E. Bullock, NERVA irradiation program. Volume 5. NERVA hydrogen-conversion problems. 1970: Nucl. Aerosp. Res. Facil., Rep. FZK-351-5, 109 pp.
  • Cassutt, L., D. Biron, and B. Vonnegut, Electrostatic hazards associated with the transfer and storage of liquid hydrogen. Adv. Cryog. Eng., 1962. 7: p. 327-35.
  • Cath, P.G. and H. Kamerlingh Onnes, On the measurement of very low temperatures. - XXVII. Vapour pressures of hydrogen in the neighbourhood of the boiling point and between the boiling point and the critical temperature. Commun. Phys. Lab. Univ. Leiden, 1917(152A): p. 1-17.
  • Cath, P.G. and H. Kamerlingh Onnes, On the measurement of very low temperatures. XXX. Comparison of helium, argon, neon, oxygen and nitrogen thermometers to the hydrogen thermometer. Corrections to reduce the indications of these thermometers to the international Kelvin scale. The second virial coefficients for helium, argon, neon, oxygen and nitrogen below 0 degrees C (in French). Commun. Phys. Lab. Univ. Leiden, 1922(156A): p. 1-32.
  • Cernan, E.Q., Liquid hydrogen - high energy rocket fuel. 1963, U. S. Nav. Postgrad. Sch., Ph.D. Dissertation, 89 pp.
  • Chaikin, A. M., Markevich, A. M., Zh. Fiz. Khim., 1958, 32: p. 116-20.
  • Chang, C.C. and R.J. Kokes, Chemisorption of molecular hydrogen on zinc oxide. J. Am. Chem. Soc., 1971. 93(25): p. 7107-9.
  • Chanin, L.M. and G.D. Rork, Measurements of the first Townsend ionization coefficient in neon and hydrogen. Phys. Rev., 1963. 132(6): p. 2547-53.
  • Chapline, G.F., Jr., Metal-insulator transition in solid hydrogen. Phys. Rev. B, 1972. 6(6): p. 2067-70.
  • Charlesworth, P.L. and M. Ruhemann, Low temperature hydrogen recovery from industrial gases. Annexe Bull. Inst. Int. Froid, 1965. 1965(4): p. 467-75.
  • Chase, M. W., Davies, C. A., Downey, J. R., Frurip, D. J., McDonald, R. A., Syverud,A. N., JANAF Thermochemical Tables. Third Edition. Part I, JANAF Thermochemical Tables,,Part I,3rd ed.,J. Phys. Chem. Ref. Data,Vol. 14,Suppl. No. 1,Am. Chem. Soc.: Washington,DC, 1985.
  • Chelton, D.B., Safety In The Use of Liquid Hyrdogen, NBS Report 7253, 1962 Link to publication
  • Chen, R.-Y., D. Henderson, and R.D. Reed, Cell model for quantum fluids. III. Compressional waves in liquid hydrogen. Aust. J. Chem., 1965. 18(9): p. 1309-16.
  • Chen, S.H., Y. Lefevre, and S. Yip, Kinetic theory of collisional line narrowing in pressurized hydrogen gas. Phys. Rev. A, 1973. 8(6): p. 3163-73.
  • Chen, S.H., T.A. Postol, and K. Skoeld, Study of self-diffusion in dense hydrogen gas by quasielastic incoherent neutron scattering. Phys. Rev. A, 1977. 16(5): p. 2112-9.
  • Chen, S.-H., et al., Hydrogen-bond spectroscopy of water by neutron scattering. Phys. Rev. Lett., 1984. 53(14): p. 1360-3.
  • Cheng, D.Y. and P.L. Blackshear, Jr., Measurement of the viscosity of the atomic hydrogen. J. Chem. Phys., 1972. 56(1): p. 213-23.
  • Chester, P.F. and J.S. Dugdale, Melting curves of deuterium and hydrogen. Phys. Rev., 1954. 95(1): p. 278-9.
  • Chihara, J., Effective interionic interaction in liquid metals: liquid metallic hydrogen. J. Phys. C, 1986. 19: p. 1665-77.
  • Childs, G.E. and D.E. Diller, Refractive Index of Liquid Deuterium. Preprint of Paper D-2 prepared for presentation at the Cryogenic Engineering Conference, University of California, Los Angeles, 1969.
  • Childs, G.E. and D.E. Diller, Refractive index of liquid deuterium. Adv. Cryog. Eng., 1970. 15: p. 65-9.
  • Chishko, K.A., Plastic deformation model of solid parahydrogen (in Russian). Fiz. Nizk. Temp., 1989. 15(1): p. 106-7.
  • Chisholm, D.A., et al., Induced infrared absorption in hydrogen and hydrogen foreign gas mixtures at pressures up to 1500 atmospheres. Phys. Rev., 1952. 88: p. 957-8.
  • Chisholm, D.A., W.F.J. Hare, and H.L. Welsh, Infrared absorption of hydrogen at high pressures (in French). J. Phys. Radium, 1954. 15(6): p. 511-2.
  • Chisholm, D.A. and H.L. Welsh, Induced infrared absorption in hydrogen and hydrogen - foreign gas mixtures at pressures up to 1500 atmospheres. Can. J. Phys., 1954. 32: p. 291-312.
  • Chokappa, D., et al., Theoretical methods for the prediction of phase equilibria in hydrogen-containing mixtures. Chem. Eng. Sci., 1985. 40(10): p. 1831-41.
  • Choudhary, V.R., M.G. Sane, and H.G. Vadgaonkar, Solubility of hydrogen in methanol containing reaction species for hydrogenation of o-nitrophenol. J. Chem. Eng. Data, 1986. 31(3): p. 294-6.
  • Chu, T.-C., P.S. Chappelear, and R. Kobayashi, Diffusivity of light hydrocarbons into hydrogen. J. Chem. Eng. Data, 1974. 19(4): p. 299-303.
  • Chu, T.-C., P.S. Chappelear, and R. Kobayashi, Unlike pair potential interaction force constants for hydrogen-light hydrocarbon systems. AIChE J., 1975. 21(1): p. 173-5.
  • Chuang, S.-Y., Viscosity of methane-hydrogen system from -100 degrees C to 0 degrees C at pressures up to 500 atmospheres. 1972, Rice Univ., Houston, Tex., Ph.D. Dissertation, 205 pp.
  • Chuang, S.-Y., P.S. Chappelear, and R. Kobayashi, Viscosity of methane, hydrogen, and four mixtures of methane and hydrogen from -100 degrees C to 0 degrees C at high pressures. J. Chem. Eng. Data, 1976. 21(4): p. 403-11.
  • Chubb, J.N. and I.E. Pollard, Experimental studies of hydrogen condensation on to liquid helium cooled surfaces. Vacuum, 1965. 15(10): p. 491-6.
  • Chueh, P.L. and C.H. Deal, Liquid densities and liquid enthalpies of hydrogen-containing hydrocarbon mixtures. AIChE J., 1973. 19(1): p. 138-45.
  • Chung, J.G. and G. Thodos, A vapor pressure equation for n-hydrogen between the triple and critical points. Chem. Eng. J., 1976. 12(3): p. 219-24.
  • Cini Castagnoli, G., Diffusion of Kr and He in liquid hydrogen. J. Chem. Phys., 1961. 35(6): p. 1999-2001.
  • Cini-Castagnoli, G., A. Giardini-Guidoni, and F.P. Ricci, Diffusion of neon, HT, and deuterium in liquid hydrogen. Phys. Rev., 1961. 123(2): p. 404-6.
  • Clark, A.M., A.H. Cockett, and H.S. Eisner. The vapour pressure of hydrogen sulphide. in Proc. R. Soc. London, Ser. A. 1951.
  • Claude, A.M., et al., Using the reverse reaction to design a catalytic reactor. The example of the low-temperature para-orthohydrogen shift. Ind. Eng. Chem. Process Des. Dev., 1977. 16(3): p. 263-6.
  • Clerc, H., R. Tufeu, and B. Le Neindre. Experimental determination of the thermal conductivity of hydrogen isotopes (H(2) and D(2)) and helium isotopes ((3)He and (4)He) from 25 degrees C to 100 degrees C and up to 60 MPa. in Proc. Symp. Thermophys. Prop. 1977.
  • Clerouin, J., The viscosity of dense hydrogen: from liquid to plasma behaviour. Journal of Physics-Condensed Matter, 2002. 14(40): p. 9089-9097.
  • Clifford, A.A., et al., Testing intermolecular potential functions using transport property data. Part 2. - Thermal conductivities of mixtures of helium with the hydrogen isotopes. J. Chem. Soc., Faraday Trans. 1, 1975. 71(10): p. 1962-77.
  • Clifford, A.A., et al., Testing Intermolecular Potential Functions Using Transport Property Data .1. Viscosity of Hydrogen from 273 to 1060 K. Journal of the Chemical Society-Faraday Transactions I, 1975. 71: p. 1953-1961.
  • Clifford, A.A., et al., Thermal conductivity of mixtures of hydrogen and helium at 27.5 degrees C and pressures up to 14 MPa. Ber. Bunsenges. Phys. Chem., 1980. 84(1): p. 18-23.
  • Clifford, A.A., J. Kestin, and W.A. Wakeham, The thermal conductivity of hydrogen, deuterium and their mixtures near room temperature within the pressure range 2-36 MPa. Ber. Bunsenges. Phys. Chem., 1980. 84(1): p. 9-18.
  • Clifford, A.A., et al., Thermal-Conductivity of Mixtures of Hydrogen and Helium at 27.5-Degrees-C and Pressures up to 14 Mpa. Berichte Der Bunsen-Gesellschaft-Physical Chemistry Chemical Physics, 1980. 84(1): p. 18-23.
  • Clifford, A.A., J. Kestin, and W.A. Wakeham, Thermal-Conductivity of Hydrogen, Deuterium and Their Mixtures near Room-Temperature within the Pressure Range 2-36 Mpa. Berichte Der Bunsen-Gesellschaft-Physical Chemistry Chemical Physics, 1980. 84(1): p. 9-18.
  • Clifford, A.A., et al., Thermal conductivities of argon, nitrogen and hydrogen between 300 and 400 K and up to 25 MPa. J. Chem. Soc., Faraday Trans. 1, 1981. 77(11): p. 2679-91.
  • Clifford, A.A., J. Kestin, and W.A. Wakeham, The viscosity of mixtures of hydrogen with three noble gases. Ber. Bunsenges. Phys. Chem., 1981. 85(5): p. 385-8.
  • Clifford, A.A. and N. Platts, Calculation of the thermal conductivities of hydrogen, nitrogen, oxygen and carbon dioxide at high temperatures. J. Chem. Soc., Faraday Trans. 1, 1981. 77(11): p. 2669-78.
  • Clouter, M. and H.P. Gush, Change in the crystal structure of solid normal hydrogen near 1.5 degrees K. Phys. Rev. Lett., 1965. 15(5): p. 200-2.
  • Clouter, M.J., H.P. Gush, and H.L. Welsh, Infrared fundamental band of solid orthohydrogen in the ordered state. Can. J. Phys., 1970. 48: p. 237-43.
  • Clusius, K. and K. Hiller, The specific heats of parahydrogen in solid, liquid and gaseous states (in German). Z. Phys. Chem., 1929. 4B(1/2): p. 158-68.
  • Clusius, K., On an apparatus for the production of liquid hydrogen with neon as the intermediate substance (in German). Z. Gesamte Kaelte-Ind., 1932. 39(6): p. 94-7.
  • Clusius, K. and E. Bartholome, Measurements on condensed heavy hydrogen (in German). Naturwissenschaften, 1934. 22(31): p. 526-7.
  • Clusius, K. and E. Bartholome, The properties of condensed heavy hydrogen (in German). Z. Tech. Phys., 1934. 15(12): p. 545-7.
  • Clusius, K. and E. Bartholome, The specific heat and heat of fusion of condensed heavy hydrogen (in German). Nachr. Ges. Wiss. Goettingen, Math.-Phys. Kl., Fachgruppe 3, 1934. 1(4): p. 29-39.
  • Clusius, K., Remarks on the vapor pressure differences of the ortho- and para-modifications of the hydrogen isotopes (in German). Z. Phys. Chem., 1935. 29B(3): p. 159-61.
  • Clusius, K. and E. Bartholome, Caloric and thermal properties of condensed heavy hydrogen (in German). Z. Phys. Chem., 1935. 30B(4): p. 237-57.
  • Clusius, K. and E. Bartholome, On the heat of rotation of heavy orthohydrogen (in German). Z. Phys. Chem., 1935. 29B: p. 162-9.
  • Clusius, K. and E. Bartholome, The entropy of heavy hydrogen (in German). Z. Phys. Chem., 1935. 30B(4): p. 258-64.
  • Clusius, K. and E. Bartholome, Energy and Thermal Characteristics of Condensed Heavy Hydrogen. Z. Phys. Chem., 1935. 30(4): p. 17.
  • Clusius, K., Weigand, K., Melting Curves of the Gases A,Kr,Xe,CH4,CH3D,CD4,C2H4,C2H6,COS,and PH3 to 200 Atmospheres Pressure. The Change of Volume on Melting, Z. Phys. Chem.,1940, Abt. B, 46: p. 1-37.
  • Coan, C. R., King, A. D., Second cross virial coefficients of benzene + gas mixtures from high pressure solubility measurements a comparison with gas chromatographic values, J. Chromatogr., 1969, 44: p. 429.
  • CODATA Recommended Key Values for Thermodynamics 1975,Report of the CODATA Task Group on Key Values for Thermodynamics,J. D. Cox Chairman, CODATA Bull.,No. 17,Jan. 1976.
  • ODATA Recommended Key Values for Thermodynamics 1977,Report of the CODATA Task Group on Key Values for Thermodynamics,J. D. Cox Chairman, CODATA Bull.,28, 1978.
  • Cohen, K. and H.C. Urey, Van der Waals' forces and the vapor pressures of ortho- and parahydrogen and ortho- and paradeuterium. J. Chem. Phys., 1939. 7: p. 157-63.
  • Cohen, E.G.D., et al., The transport properties and the equation of state of gaseous para- and ortho-hydrogen and their mixtures below 40 degrees K. Physica (Amsterdam), 1955. 21: p. 737-9.
  • Cohen, E.G.D., et al., The transport properties and the equation of state of gaseous para- and ortho-hydrogen and their mixtures below 40 degrees K. Physica (Amsterdam), 1956. 22: p. 791-815.
  • Cohen, A.E., H.G. Hipkin, and C.R. Koppany, Experimental vapor-liquid equilibrium data for hydrogen-ethane and hydrogen-methane-ethane. Chem. Eng. Prog., Symp. Ser., 1967. 63(81): p. 10-7.
  • Cohen, A.E., H.G. Hipkin, and C.R. Koppany, Experimental vapor-liquid equilibria for hydrogen-nitrogen-methane-ethane-ethylene. Can. J. Chem. Eng., 1969. 47(4): p. 422-6.
  • Cohen, M. and B.W. Southern, Dipole polarizability of the hydrogen molecule: a single-center calculation. Can. J. Phys., 1970. 48(17): p. 1991-5.
  • Cohen, S.S. and A. Ron, On the possible existence of hydrogen ions in solid rare-gas crystals. J. Chem. Phys., 1973. 58(12): p. 5549-51.
  • Cohn, C.E. and G.H. Golden, A table of thermodynamic properties of hydrogen for temperatures from 100 to 3000 degrees K and pressures from 1 to 50 atmospheres. 1963: Argonne Natl. Lab., Rep. ANL-6673, 267 pp.
  • Coldwell-Horsfall, R.A. Phase separation in solid hydrogen-deuterium and (3)He-(4)He mixtures. in Proc. Int. Conf. Low Temp. Phys. 1965.
  • Cole, R.H., On the dielectric constant of liquid hydrogen cyanide. J. Am. Chem. Soc., 1955. 77: p. 2012-2013.
  • Coll, C.F., III and A.B. Harris, k = 0 libron spectrum for solid hydrogen in the Pa3 and C(mmm) structures. Phys. Rev. B, 1970. 2(4): p. 1176-92.
  • Coll, C.F., III, A.B. Harris, and A.J. Berlinsky, Observation of libron-libron interactions in solid hydrogen. Phys. Rev. Lett., 1970. 25(13): p. 858-61.
  • Conde, O. and J. Teixeira, Depolarized light scattering of heavy water, and hydrogen bond dynamics. Mol. Phys., 1984. 53(4): p. 951-9.
  • Connett, J. E., Chemical Equilibria. Part III. Dehydrogenation of Pentan-1-ol,Pentan-2-ol,and 3-Methylbutan-2-ol, J. Chem. Soc. A, 1970, 1284
  • Connett, J. E., Chemical Equilibriums. 5. Measurement of Equilibrium Constants for the Dehydrogenation of Propanol by a Vapor Flow Technique, J. Chem. Thermodyn., 1972, 4: p. 233.
  • Connett, J. E., Chemical Equilibrium. 6. Measurement of Equilibrium Constants for the Dehydrogenation of 2-Methylpropan-1-ol by A Vapor-flow Technique, J. Chem. Thermodyn., 1975, 7: p. 1159.
  • Connolly, J.F., Thermodynamic properties of hydrogen in benzene solutions. J. Chem. Phys., 1962. 36(11): p. 2897-904.
  • Connolly, J. F., Virial coefficients of hydrogen - hydrocarbon mixtures,Phys. Fluids, 1961. 4: p. 1494
  • Connolly, J.F. and G.A. Kandalic, Partial molal volumes of hydrogen in liquid hydrocarbons. Chem. Eng. Prog., Symp. Ser., 1963. 59(44): p. 8-10.
  • Connolly, J.F. and G.A. Kandalic, Gas solubilities, vapor-liquid equilibria, and partial molal volumes in some hydrogen-hydrocarbon systems. J. Chem. Eng. Data, 1986. 31(4): p. 396-406.
  • Connolly, J.F. and G.A. Kandalic, Thermodynamic properties of solutions of hydrogen in n-octane. J. Chem. Thermodyn., 1989. 21(8): p. 851-8.
  • Contreras, W. and M. Lee, Melting characteristics and bulk thermophysical properties of solid hydrogen. 1972: Grumman Aerosp. Corp., Tech. Rep. AFRPL-TR-72-48, 127 pp.
  • Cook, E.B. and R.W. Smith, Jr., Computed compositions and thermodynamic properties of deuterium-air flames. 1961: U.S. Bur. Mines, Rep. Invest. 5787, 25 pp.
  • Cook, G.A., R.F. Dwyer, and A.C. Jenkins, Research on rheologic and thermodynamic properties of solid and slush hydrogen. 1964: Union Carbide Corp., Tonawanda, N.Y., Quart. Rep. 3, 37 pp.
  • Cook, G.A. and R.F. Dwyer, Fluid hydrogen slush - a review. Adv. Cryog. Eng., 1965. 11: p. 202-6.
  • Cook, G.A., et al., Pressure-volume-temperature relations in solid parahydrogen. J. Chem. Phys., 1965. 43(4): p. 1313-6.
  • Coppock, J.B.M., The volume coefficient of expansion of deuterium. Trans. Faraday Soc., 1935. 31: p. 913-4.
  • Coremans, J.M.J., et al., The influence of the density on the viscosity of helium gas at liquid hydrogen temperatures. Annexe Bull. Inst. Int. Froid, 1958. 1958(1): p. 289-93.
  • Cornish, R.E. and E.D. Eastman, The specific heat of hydrogen gas at low temperatures from the velocity of sound; and a precision method of measuring the frequency of an oscillating circuit. J. Am. Chem. Soc., 1928. 50: p. 627-52.
  • Corruccini, R.J., Dielectric constant of hydrogen. 1961: Natl. Bur. Stand., Cryog. Eng. Lab. Note 61-19, 6 pp.
  • Corruccini, R.J., Dielectric Constant of Liquid Parahydrogen. NBS Technical Note 144, 1962.
  • Corruccini, R.J., Refractive index and dispersion of liquid hydrogen. 1964: Natl. Bur. Stand., Cryog. Eng. Lab. Note 64-16, 5 pp.
  • Corruccini, R.J., Solubility of helium in liquid hydrogen. J. Chem. Phys., 1964. 40(7): p. 2039-40.
  • Corruccini, R.J., Refractive index and dispersion of liquid hydrogen. Part 2. 1965: Natl. Bur. Stand., Cryog. Eng. Lab. Note 65-4, 13 pp.
  • Corruccini, R.J., Refractive index and dispersion of liquid hydrogen. 1965: Natl. Bur. Stand., Tech. Note 323, 24 pp.
  • Corruccini, R.J., Properties of liquid hydrogen. Liquid Hydrogen (Properties, Production and Application), 1965: p. 65-106.
  • Corruccini, R.J., Refractive Index and Dispersion of Liquid Hydrogen. NBS Technical Note 323, 1965.
  • Corruccini, R.J., Surface Tensions of Normal and Para Hydrogen. NBS Technical Note 322, 1965.
  • Corset, J., J. Guillermet, and J. Lascombe, Infrared spectra of ammonia in the liquid state and in solution in carbon tetrachloride, with different amounts of deuterium (in French). Bull. Soc. Chim. Fr., 1966(4): p. 1231-6.
  • Cosway, H.F., Low-temperature vapor-liquid equilibria in ternary and quaternary systems containing hydrogen, nitrogen, methane and ethane. 1958, Univ. Mich., Ann Arbor, Ph.D. Dissertation, 178 pp.
  • Cosway, H.F. and D.L. Katz, Low-temperature vapor-liquid equilibria in ternary and quaternary systems containing hydrogen, nitrogen, methane, and ethane. AIChE J., 1959. 5(1): p. 46-50.
  • Cottrell, T.L., R.A. Hamilton, and R.P. Taubinger, The second virial coefficients of gases and mixtures. Part 2. - mixtures of carbon dioxide with nitrogen, oxygen, carbon monoxide, argon and hydrogen. Trans. Faraday Soc., 1956. 52: p. 1310-2.
  • Coulon, A., G.A. Simonet, and L. Stouls, Distillation of hydrogen isotope mixtures. Industrial manufacture of deuterium with low tritium content. Annexe Bull. Inst. Int. Froid, 1961. 1961(5): p. 45-63.
  • Coulon, A. and M. Jean-Louis, Effect of density on the induced near infrared spectrum of solid parahydrogen with ortho impurities at 4.2 K. J. Phys. (Paris), Colloq., 1984. 8C: p. 211-2.
  • Craig, R.R., Some calculations of the specific heat and Prandtl number of gaseous hydrogen. 1962: Aeronaut. Sys. Div., Tech. Memo. ASRMPR 62-18, 58 pp.
  • Cramer, J.D., The compressibility of gaseous mixtures of helium-nitrogen and helium-deuterium at high pressures. 1965: Los Alamos Sci. Lab., Rep. LA-3250-MS, 24 pp.
  • Cramer, J.A., Thermomagnetic torque in hydrogen isotopes. J. Chem. Phys., 1975. 63(9): p. 3804-11.
  • Crampton, S.B., et al., Hyperfine resonance of gaseous atomic hydrogen at 4.2 K. Phys. Rev. Lett., 1979. 42(16): p. 1039-42.
  • Crane, A. and H.P. Gush, The induced infrared absorption spectrum of solid deuterium and solid hydrogen deuteride. Can. J. Phys., 1966. 44: p. 373-98.
  • Craver, J.K., A classification of hydrogen-bonding solvents by sonic velocity measurements. J. Appl. Polym. Sci., 1970. 14(7): p. 1755-65.
  • Crawford, F.S., Jr., Index of refraction of liquid and gaseous hydrogen at 27 degrees K. 1956: Univ. Calif., Radiat. Lab., Berkeley, Eng. Note UCID-76, 2 pp.
  • Crawford, O.H., Rotational transitions in hydrogen gas when both collision partners rotate. Chem. Phys. Lett., 1970. 6(5): p. 409-12.
  • Crofts, J.M., The firing of gases by adiabatic compression. Part III. The ignition-points of mixtures of electrolytic gas with argon. Ratio of the specific heat for nitrogen and hydrogen. J. Chem. Soc., 1915. 107: p. 290-305.
  • Crommelin, C.A. and J.C. Swallow, Communication on the isotherms of hydrogen from -217 degrees C. to -240 degrees C. at pressures up to 60 atmospheres. 1924: Rep. Commun., Int. Comm. I. I. R., 1st (5a):1-7.
  • Crommelin, C.A. and J.C. Swallow, Isotherms of di-atomic substances and their binary mixtures. XXX. On the isotherms of hydrogen from -217 degrees C. to -240 degrees C. at pressures up to 60 atmospheres. Commun. Phys. Lab. Univ. Leiden, 1924(172A): p. 1-9.
  • Crompton, R.W., M.T. Elford, and A.I. McIntosh, Electron transport coefficients in hydrogen and deuterium. Aust. J. Phys., 1968. 21(1): p. 43-63.
  • Crompton, R.W. and A.I. McIntosh, Ion drift and diffusion in parahydrogen at 77 degrees K. Aust. J. Phys., 1968. 21(5): p. 637-47.
  • Crompton, R.W. and A.G. Robertson, The density dependence of electron drift velocities in normal and parahydrogen, deuterium, and helium at 77 K. Aust. J. Phys., 1971. 24(4): p. 543-53.
  • Crozier, T.E. and S. Yamamoto, Solubility of hydrogen in water, seawater, and NaCl solutions. J. Chem. Eng. Data, 1974. 19(3): p. 242-4.
  • Cruickshank, A. J. B., Gainey, B. W., Young, C. L., Activity coefficients of hydrocarbons c4 to c8 in n-octadecane at 35!31c, Trans. Faraday Soc., 1968, 64: p. 337-48.
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