Springer Nature is making SARS-CoV-2 and COVID-19 research free. View research | View latest news | Sign up for updates

Energetics of the interaction of water and other liquids with the surface of hydrophilic and hydrophobic sorbents according to data on the heats of wetting

  • 84 Accesses

  • 4 Citations

Abstract

Papers on the energetics of the interaction of various substances with the surface of hydrophilic and hydrophobic sorbents using the data from heats of wetting are reviewed. The thermodynamics of wetting is examined, and the important role of the heats of wetting for the production of quantitative data on the surface energy of solids is demonstrated. The uniqueness of the information on the physicochemical characteristics of the sorbents and catalysts obtained from the immersion wetting isotherms is emphasized, and up-to-date information on the extent, structure, and characteristics of the boundary layers of water is analyzed. It is shown that the calorimetric data serve as an experimental base for obtaining data on the structural ordering-disordering of the boundary layers of water.

This is a preview of subscription content, log in to check access.

References

  1. 1.

    J. Chessick and A. Zettlemoyer, Catalysis. Problems of Selectivity and Stereospecificity of Catalysts [Russian translation], Izd. Inostr. Lit., Moscow (1963), pp. 293–334.

  2. 2.

    W. D. Harkins and G. Jura, J. Am. Chem. Soc., 66, No. 6, 919–927 (1944).

  3. 3.

    W. D. Harkins, Physical Chemistry of Surface Films, Reinhold, New York (1952).

  4. 4.

    B. V. Il’in, The Nature of Adsorption Forces [in Russian], Gostekhteoretizdat, Moscow (1952).

  5. 5.

    A. V. Dumanskii, The Lyophilicity of Dispersed Systems [in Russian], Izd. Akad. Nauk Ukr. SSR, Kiev (1960).

  6. 6.

    A. V. Dumanskii, Selected Works: Colloid Chemistry [in Russian], Izd. Voronezh. Un-ta, Voronezh (1990).

  7. 7.

    A. C. Zettlemoyer, Industr. Eng. Chem., 57, No. 2, 27–36 (1965).

  8. 8.

    A. C. Zettlemoyer and K. Narayan, Gas-Solid Phase Boundary [Russian translation], E. Flad (ed.), Mir, Moscow (1970), pp. 129–149.

  9. 9.

    A. C. Zettlemoyer and E. McCafferty, Croat. Chem. Acta., 45, No. 1, 173–187 (1973).

  10. 10.

    A. V. Kiselev, Remarks to the Russian Press of the Collective Monograph “The Gas-Solid Phase Boundary” [in Russian], E. Flad (ed.), Mir, Moscow (1970), pp. 425–433.

  11. 11.

    Yu. I. Tarasevich, Teor. Éksp. Khim., 42, No. 3, 133–149 (2006). [Theor. Experim. Chem., 42, No. 3, 145–161 (2006).]

  12. 12.

    Yu. I. Tarasevich, Kolloid. Zh., 69, No. 2, 235–243 (2007).

  13. 13.

    R. J. Good, L. A. Girifalco, and G. A. Kraus, J. Phys. Chem., 62, No. 11, 1418–1421 (1958).

  14. 14.

    H. H. G. Jellinek, J. Colloid Sci., 20, No. 2, 801 (1965).

  15. 15.

    Yu. I. Tarasevich, Kolloid. Zh., 53, No. 6, 1111–1113 (1991).

  16. 16.

    J. J. Chessick, F. H. Healey, and A. C. Zettlemoyer, J. Phys. Chem., 60, No. 10, 1345–1347 (1956).

  17. 17.

    B. V. Summ and Yu. V. Goryunov, The Physicochemical Principles of Wetting and Flow [in Russian], Khimiya, Moscow (1976).

  18. 18.

    J. M. Douillard, M. Elwafir, and S. Partyka, J. Colloid Interface Sci., 164, No. 1, 238–244 (1994).

  19. 19.

    P. C. Hiements, Principles of Colloid and Surface Chemistry, Dekker, New York (1986).

  20. 20.

    K. P. Mishchenko and A. A. Ravdel (eds.), Concise Handbook of Physicochemical Values, Khimiya, Leningrad (1974).

  21. 21.

    A. I. Rusanov and V. A. Prokhorov, Interphase Tensiometry [in Russian], Khimiya, St. Petersburg (1994).

  22. 22.

    B. D. Summ, Zh. Fiz. Khim., 79, No. 2, 199–212 (2005).

  23. 23.

    Yu. I. Tarasevich, Khim. Technol. Vody, 11, No. 3, 226–228 (1989).

  24. 24.

    V. N. Khabarov, A. I. Rusanov, and N. N. Konchurova, Kolloid. Zh., 37, No. 1, 92–98 (1975).

  25. 25.

    W. D. Harkins, J. Chem. Phys., 10, No. 5, 268–272 (1942).

  26. 26.

    B. F. Ormont, Introduction to Physical Chemistry and Crystal Chemistry of Semiconductors [in Russian], Vyssh. Shkola, Moscow (1973).

  27. 27.

    B. F. Ormont, Dokl. Akad. Nauk SSSR, 106, No. 4, 687–690 (1956).

  28. 28.

    J. J. Gilman, J. Appl. Phys., 11, No. 12, 2208–2218 (1960).

  29. 29.

    S. Brunauer, Pure Appl. Chem., 10, No. 4, 293–307 (1965).

  30. 30.

    Yu. I. Tarasevich, Kolloid. Zh., 54, No. 4, 186–190 (1992).

  31. 31.

    Yu. I. Tarasevich, Kolloid. Zh., 54, No. 4, 191–193 (1992).

  32. 32.

    J. Abrahamson, Carbon, 11, No. 4, 337–362 (1973).

  33. 33.

    M. Kh. Karapet’yants, Introduction to the Theory of Chemical Processes [in Russian], Vyssh. Shkola, Moscow (1975).

  34. 34.

    J. M. Douillard, J. Colloid Interface Sci., 188, No. 2, 511–515 (1997).

  35. 35.

    F. M. Fowkes, Adhesion Sci. Technol., 4, No. 8, 669–691 (1990).

  36. 36.

    J. Jänchen, H. Stach, L. Uytterhoeven, and W. J. Mortier, J. Phys. Chem., 100, No. 30, 12489–12493 (1996).

  37. 37.

    Yu. I. Tarasevich, I. G. Polyakova, and V. E. Polyakov, Adsorp. Sci. Technol., 20, No. 9, 927–935 (2002).

  38. 38.

    Yu. I. Tarasevich, V. E. Polyakov, S. V. Bondarenko, and E. V. Aksenenko, Colloids Surfaces A, 245, Nos. 1–3, 169–176 (2004).

  39. 39.

    Yu. I. Tarasevich, V. E. Polyakov, Kh. I. Minchev, and V. Zh. Penchev, Kolloid. Zh., 55, No. 1, 128–137 (1993).

  40. 40.

    Yu. I. Tarasevich, S. V. Bondarenko, and Kh. Shtakh, Ukr. Khim. Zh., 59, No. 7, 721–727 (1993).

  41. 41.

    S. V. Bondarenko, Yu. I. Tarasevich, I. Enchen, et al., Kolloid. Zh., 55, No. 1, 20–25 (1993).

  42. 42.

    M. M. Dubinin, A. A. Isirikyan, A. I. Sarakhov, and V. V. Serpinskii, Izv. Akad. Nauk. SSSR, Ser. Khim., No. 11, 2355–2360 (1969).

  43. 43.

    Yu. I. Tarasevich, Teor. Éksp. Khim., 43, No. 2, 75–80 (2007). [Theor. Experim. Chem. 43, No. 2, 79–84 (2007).]

  44. 44.

    J. M. Douillard, J. Zajac, H. Malandrini, and F. J. Clauss, J. Colloid Interface Sci., 255, No. 2, 341–351 (2002).

  45. 45.

    C. J. Van Oss, R. J. Good, and M. K. Chaudhury, Langmuir, 4, No. 4, 884–891 (1988).

  46. 46.

    D. H. Bangham and R. I. Razouk, Trans. Faraday Soc., 33, No. 11, 1459–1463 (1937).

  47. 47.

    J. W. Whalen and K. Y. Lai, J. Colloid Interface Sci., 59, No. 3, 483–489 (1977).

  48. 48.

    Yu. I. Tarasevich, Zh. Fiz. Khim., 64, No. 9, 2452–2459 (1990).

  49. 49.

    Yu. I. Tarasevich, Teor. Éksp. Khim., 29, No. 2, 100–115 (1993). [Theor. Experim. Chem., 29, No. 2, 69–79 (1993).]

  50. 50.

    V. Médout-Marère, H. Malandrini, T. Zoungrana, et al., J. Petroleum Sci. Eng., 20, Nos. 3/4, 223–231 (1998).

  51. 51.

    J.-M. Douillard and V. Médout-Marère, Acid-Base Interactions, K. L. Mittal (ed.), Vol. 2, VSP, Utrecht (2000), pp. 317–347.

  52. 52.

    J.-M. Douillard, F. Salles, M. Henry, et al., J. Colloid Interface Sci., 305, No. 2, 352–360 (2007).

  53. 53.

    S. Shalel-Levanon and A. Marmura, J. Colloid Interface Sci., 262, No. 2, 489–499 (2003).

  54. 54.

    J.-M. Douillard, Interfacial Dynamics, N. Kallay (ed.), Marcel Dekker, New York (1998), pp. 313–349.

  55. 55.

    F. Salles, M. Henry, and J.-M. Douillard, J. Colloid Interface Sci., 303, No. 2, 617–626 (2006).

  56. 56.

    M. S. Metsik, Physics of Cleaved Micas [in Russian], Vost.-Sib. Kn. Izd., Irkutsk (1967).

  57. 57.

    M. E. Tadros, P. Hu, and A. W. Adamson, J. Colloid Interface Sci., 49, No. 2, 184–195 (1974).

  58. 58.

    A. C. Zettlemoyer, J. Colloid Interface Sci., 28, Nos. 3/4, 343–369 (1968).

  59. 59.

    G. Kraus, J. Phys. Chem., 59, No. 4, 343–345 (1955).

  60. 60.

    I. Kalnin and H. Jager, Carbon Fibres and Carbon Composites [Russian translation], F. Fitzer (ed.), Mir, Moscow (1988), pp. 83–102.

  61. 61.

    I. G. Polyakova, Yu. I. Tarasevich, and V. E. Polyakov, Kolloid. Zh., 44, No. 4, 799–800 (1982).

  62. 62.

    P. A. Rebinder, Mathematics and Natural Science in the USSR [in Russian], Gostekhizdat, Moscow, Leningrad (1938), pp. 431–464.

  63. 63.

    Yu. I. Tarasevich and F. D. Ovcharenko, Adsorption on Clay Minerals [in Russian], Naukova Dumka, Kiev (1975).

  64. 64.

    Yu. I. Tarasevich, V. E. Polyakov, and I. G. Polyakova, Kolloid. Zh., 63, No. 2, 254–258 (2001).

  65. 65.

    B. A. Hendriksen, D. R. Pearce, and R. Rudham, J. Catal., 24, No. 1, 82–87 (1972).

  66. 66.

    T. Morimoto, K. Shiomi, and H. Tanaka, Bull. Chem. Soc. Jpn., 37, No. 3, 392–395 (1964).

  67. 67.

    W. H. Wade and N. Hackerman, J. Phys. Chem., 65, No. 10, 1681–1683 (1961).

  68. 68.

    T. Iwaki, M. Komuro, and M. Miura, Bull. Chem. Soc. Jpn., 45, No. 8, 2343–2346 (1972).

  69. 69.

    F. H. Healey, J. J. Chessick, and A. V. Fraioli, J. Phys. Chem., 60, No. 7, 1001–1004 (1956).

  70. 70.

    A. C. Zettlemoyer and E. McCafferty, Z. phys. Chem. Neue Folge, 64, Nos. 1–4, 41–48 (1969).

  71. 71.

    J. J. Jurinak and R. G. Burau, Soil Sci. Soc. Am. Proc., 31, No. 6, 732–736 (1967).

  72. 72.

    Yu. I. Tarasevich, Ukr. Khim. Zh., 59, No. 3, 265–269 (1993).

  73. 73.

    V. E. Polyakov and Yu. I. Tarasevich, Ukr. Khim. Zh., 54, No. 11, 1134–1137 (1988).

  74. 74.

    E. V. Gribanova, Yu. I. Tarasevich, V. E. Polyakov, and V. P. Belousov, Kolloid. Zh., 46, No. 2, 231–237 (1984).

  75. 75.

    Yu. I. Tarasevich, Ukr. Khim. Zh., 51, No. 2, 133–140 (1985).

  76. 76.

    J. J. Bikerman, Surface Chemistry. Theory and Applications, Academic Press, New York (1958).

  77. 77.

    F. E. Bartell and R. M. Suggitt, J. Phys. Chem., 58, No. 1, 36–40 (1954).

  78. 78.

    L. T. Zhuravlev, Langmuir, 3, No. 3, 316–318 (1987).

  79. 79.

    Yu. I. Tarasevich, A. K. Trofimchuk, A. V. Legenchuk, and Z. G. Ivanova, Kolloid. Zh., 66, No. 1, 88–94 (2004).

  80. 80.

    A. V. Kiselev and V. I. Lygin, Infrared Spectra of Surface Compounds [in Russian], Nauka, Moscow (1972).

  81. 81.

    Yu. I. Tarasevich, V. A. Smirnova, and L. I. Monakhova, Kolloid. Zh., 40, No. 6, 1214–1216 (1978).

  82. 82.

    Yu. I. Tarasevich, L. I. Monakhova, and V. A. Yurasova, Ukr. Khim. Zh., 50, No. 10, 1032–1037 (1984).

  83. 83.

    Yu. I. Tarasevich, Ukr. Khim. Zh., 52, No. 2, 133–141 (1985).

  84. 84.

    Yu. I. Tarasevich, S. V. Bondarenko, A. I. Zhukova, and Z. G. Ivanova, Kolloid. Zh., 69, No. 2, 244–250 (2007).

  85. 85.

    H. D. Boehm, Carbon, 32, No. 5, 759–769 (1994).

  86. 86.

    R. Sh. Vartapetyan and A. M. Voloshchuk, Usp. Khim., 64, No. 11, 1055–1072 (1995).

  87. 87.

    Yu. I. Tarasevich, S. V. Bondarenko, and A. I. Zhukova, Adsorption, 11, Nos. 3/4, 385–391 (2005).

  88. 88.

    F. H. Healey, F. Y. Yu, and J. J. Chessick, J. Phys. Chem., 59, No. 5, 399–402 (1955).

  89. 89.

    R. Sh. Vartapetyan, A. M. Voloshchuk, A. A. Isirikyan, et al., Colloids Surfaces A, 101, Nos. 2/3, 227–232 (1995).

  90. 90.

    E. V. Aksenenko and Yu. I. Tarasevich, Adsorp. Sci. Technol., 14, No. 6, 383–391 (1996).

  91. 91.

    B. Collignon, P. N. M. Hoang, S. Picaud, and J. C. Rayez, Chem. Phys. Lett., 406, Nos. 4–6, 430–435 (2005).

  92. 92.

    Yu. I. Tarasevich, E. V. Aksenenko, S. V. Bondarenko, and A. I. Zhukova, Teor. Éksp. Khim., 43, No. 3, 176–182 (2007). [Theor. Experim. Chem., 43, No. 3, 191–197 (2007).]

  93. 93.

    E. Chibowski, Adv. Colloid Interface Sci., 133, No. 1, 51–59 (2007).

  94. 94.

    M. Wahba, J. Phys. Colloid Chem., 54, No. 8, 1148–1160 (1950).

  95. 95.

    R. Sh. Vartapetyan, A. M. Voloshchuk, A. A. Isirikyan, and N. S. Polyakov, Kolloid. Zh., 55, No. 2. 191–192 (1993).

  96. 96.

    S. Partyka, F. Rouquerol, and J. Rouquerol, J. Colloid Interface Sci., 68, No. 1, 21–31 (1979).

  97. 97.

    H. Malandrini, R. Sarraf, B. Faucompré, et al., Langmuir, 13, No. 5, 1337–1341 (1997).

  98. 98.

    Yu. I. Tarasevich, V. E. Polyakov, I. G. Polyakova, and F. D. Ovcharenko, Dokl. Akad. Nauk SSSR, 232, No. 2, 395–397 (1977).

  99. 99.

    A. V. Kiselev, K. G. Krasil’nikov, N. L. Pokrovskii, et al., Zh. Fiz. Khim., 26, No. 7, 986–997 (1952).

  100. 100.

    N. N. Avgul’, O. M. Dzhigit, A. V. Kiselev, and K. D. Shcherbakova, Zh. Fiz. Khim., 26, No. 7, 977–985 (1952).

  101. 101.

    J. J. Fripiat, J. Cases, M. François, and M. Latellier, J. Colloid Interface Sci., 89, No. 2, 378–400 (1982).

  102. 102.

    L. J. Michot, F. Villieras, M. François, et al., Langmuir, 10, No. 10, 3765–3773 (1994).

  103. 103.

    Yu. I. Tarasevich, Structure and Chemistry of the Surface of Layer Silicates [in Russian], Naukova Dumka, Kiev (1988).

  104. 104.

    A. C. Zettlemoyer, G. J. Young, J. J. Chessick, and F. H. Healey, J. Phys. Chem., 57, No. 7, 649–653 (1953).

  105. 105.

    C. H. Gorski and L. E. Stettler, Am. Ind. Hydrene Ass. J., 35, No. 6, 345–353 (1974).

  106. 106.

    W. J. Murphy, R. A. Ross, Clays Clay Miner., 25, No. 2, 78–89 (1977).

  107. 107.

    J. J. Scholten, A. M. Beers, and A. M. Kiel, J. Catal., 36, No. 1, 23–29 (1975).

  108. 108.

    L. A. De Wit and J. J. F. Scholten, J. Catal., 36, No. 1, 30–35 (1975).

  109. 109.

    I. G. Polyakova, Yu. I. Tarasevich, and V. E. Polyakov, Kolloid. Zh., 53, No. 2, 386–391 (1991).

  110. 110.

    J. M. Douillard, J. Colloid Interface Sci., 182, No. 1, 308–311 (1996).

  111. 111.

    W. D. Harkins and G. Jura, J. Am. Chem. Soc., 66, No. 8, 1362–1366 (1944).

  112. 112.

    F. D. Ovcharenko, A. O. Orazmuradov, and Yu. I. Tarasevich, Dokl. Akad. Nauk URSR, B, No. 10, 911–913 (1969).

  113. 113.

    F. Stoeckli, L. Currit, A. Laederach, and T. A. Centeno, J. Chem. Soc., Faraday Trans., 90, No. 24, 3689–3691 (1994).

  114. 114.

    F. Kraehenbuehl, H. F. Stoeckli, A. Addoun, et al., Carbon, 24, No. 4, 483–488 (1986).

  115. 115.

    Yu. I. Tarasevich, A. I. Zhukova, and E. V. Aksenenko, Adsorp. Sci. Technol., 10, No. 2, 147–153 (1993).

  116. 116.

    Yu. I. Tarasevich, S. V. Bondarenko, A. I. Zhukova, et al., 71, No. 3, 513–516 (1997).

  117. 117.

    M. M. Dubinin, Adsorption and Porosity [in Russian], Izd. VAKhZ, Moscow (1972).

  118. 118.

    D. N. Gavrilov, G. K. Ivakhnyuk, and N. F. Fedorov, Zh. Prikl. Khim., No. 9, 2126–2129 (1985).

  119. 119.

    S. Ross and J. P. Olivier, On Physical Adsorption, Interscience, New York (1964).

  120. 120.

    W. Rudzinski, A. Waksmundzki, R. Leboda, et al., J. Chromatography, 92, No. 1, 25–32 (1974).

  121. 121.

    M. Jaroniec, Adsorption on New and Modified Inorganic Sorbents, A. Dąbrowski, V. A. Tertykh (eds.), Elsevier, Amsterdam (1996), pp. 411–433.

  122. 122.

    Q. Hou, X. Lu, X. Liu, et al., J. Colloid Interface Sci., 280, No. 1, 98–101 (2004).

  123. 123.

    A. C. Zettlemoyer and J. J. Chessick, J. Phys. Chem., 64, No. 9, 1131–1134 (1960).

  124. 124.

    Yu. I. Tarasevich, Ukr. Khim. Zh., 61, No. 12, 89–102 (1995).

  125. 125.

    B. V. Deryagin and N. V. Churaev, Wetting Films [in Russian], Nauka, Moscow (1984).

  126. 126.

    B. V. Deryagin, N. V. Churagin, and V. M. Muller, Surface Forces [in Russian], Nauka, Moscow (1987).

  127. 127.

    N. V. Churaev, Colloidal-Chemical Principles of Nanoscience, A. P. Shpak and Z. R. Ulberg (eds.), Akademperiodika, Kiev (2005), pp. 19–43.

  128. 128.

    Yu. I. Tarasevich, I. G. Polyakova, V. E. Polyakov, and F. D. Ovcharenko, Dokl. Akad. Nauk SSSR, 236, No. 3, 681–684 (1977).

  129. 129.

    Yu. I. Tarasevich, Natural Sorbents in Water Purification Processes [in Russian], Naukova Dumka, Kiev (1981).

  130. 130.

    N. V. Churaev, Usp. Khim., 73, No. 1, 26–38 (2004).

  131. 131.

    T. M. Burkat, O. V. Semashko, and O. G. Us’yarov, Kolloid. Zh., 61, No. 3, 313–321 (1999).

  132. 132.

    B. V. Zheleznyi, Zh. Phys. Khim., 58, No. 1, 175–181 (1984).

  133. 133.

    B. V. Zheleznyi and A. P. Tkachev, Surface Forces in Thin Films and the Stability of Colloids [in Russian], B. V. Deryagin (ed.), Nauka, Moscow (1974), pp. 108–112.

  134. 134.

    M. L. Gee, Th. W. Healy, and L. R. White, J. Colloid Interface Sci., 140, No. 2, 450–465 (1990).

  135. 135.

    A. A. Panasevich, G. M. Klimova, N. A. Neminskaya, and Yu. I. Tarasevich, “Device for Determination of the Swelling of Sedimentary Rocks and Powders” [in Russian], Inventor’s Certificate No. 1081538 USSR, IPC3 E 02 D 1/00, Publ. March 23, 1984, Bull. No. 11.

  136. 136.

    A. A. Panasevich, N. A. Neminskaya, and Yu. I. Tarasevich, Ukr. Khim. Zh., 49, No. 8, 822–824 (1983).

  137. 137.

    A. A. Panasevich, N. A. Neminskaya, and Yu. I. Tarasevich, Kolloid. Zh., 49, No. 6, 1104–1110 (1987).

  138. 138.

    R. M. Pashley, Adv. Colloid Interface Sci., 16, 57–62 (1982).

  139. 139.

    V. V. Mank, Z. É. Suyunova, Yu. I. Tarasevich, and F. D. Ovcharenko, Dokl. Akad. Nauk SSSR, 202, No. 1, 117–119 (1972).

  140. 140.

    Y. Nakashima, Clays Clay Miner., 50, No. 1, 1–10 (2002).

  141. 141.

    R. T. Pearson and W. J. Derbyshire, J. Colloid Interface Sci., 46, No. 2, 232–248 (1974).

  142. 142.

    W. Derbyshire, Water and Aqueous Solutions at Temperatures below 0 °C, F. Franks (ed.), Naukova Dumka, Kiev (1985), pp. 277–345.

  143. 143.

    V. V. Turov, Surface Chemistry of Silica [in Russian], A. A. Chuiko (ed.), Vol. 1, In-t. Khimii Poverkhnosti, Kiev (2001), pp. 510–607.

  144. 144.

    P. R. Smirnov, V. N. Trostin, and T. Yamaguchi, Water: Structure, State, Solvation [in Russian], A. M. Kutepov (ed.), Nauka, Moscow (2003), pp. 347–377.

  145. 145.

    K. Morishige and H. Uematsu, Proc. of the 5th Intern. Symp. Surface Heterogeneity Effects in Adsorption and Catalysis on Solids (ISSHAC-5), University of Gdansk, Gdansk (2004), pp. 38–39.

  146. 146.

    Yu. I. Tarasevich, Khim. Tekhnol. Vody, 2, No. 2, 99–107 (1980).

  147. 147.

    Yu. I. Tarasevich, Surface Forces and Boundary Layers of Liquids [in Russian], B. F. Deryagin (ed.), Nauka, Moscow (1983), pp. 147–151.

  148. 148.

    K. Norrish and J. A. Rausell-Colom, Clays Clay Miner., 10, 123–149 (1963).

  149. 149.

    A. C. Zettlemoyer, F. J. Micale, and K. Klier, Water: A Comprehensive Treatise, F. Franks (ed.), Vol. 5, Plenum Press, New York, London (1975), pp. 249–291.

  150. 150.

    M. L. Hair, J. Non-Cryst. Solids, 19, 299–309 (1975).

  151. 151.

    J. H. Shen and K. Klier, J. Colloid Interface Sci., 75, No. 1, 56–67 (1980).

  152. 152.

    P. Hoffmann and E. Knözinger, Surface Sci., 188, 181–198 (1987).

  153. 153.

    V. I. Lygin, Ros. Khim. Zh. (Zh. Ros. Khim. Obshch. im. D. I. Mendeleeva), 46, No. 3, 12–18 (2002).

  154. 154.

    L. B. Boinovich, Usp. Khim., 76, No. 5, 510–528 (2007).

  155. 155.

    M. Smalley, Swelling and Colloid Stability, CRC Press, London, New York (2006).

  156. 156.

    N. A. Bul’enkov and E. A. Zheligovskaya, Zh. Fiz. Khim., 80, No. 10, 1784–1805 (2006).

  157. 157.

    Q. Du, E. Freysz, and Y. R. Shen, Science, 264, 826–828 (1994).

  158. 158.

    J. N. Israelashvili and R. M. Pashley, Nature, 306, No. 5940, 249–250 (1983).

  159. 159.

    J. N. Israelashvili, Intermolecular and Surface Forces, Academic Press, London, New York (1992).

  160. 160.

    N. A. Chumaevskii, M. N. Rodnikova, and S. A. Vinogradov, Zh. Fiz. Khim., 80, No. 10, 1747–1752 (2006).

  161. 161.

    G. A. Martynov, Kolloid. Zh., 62, No. 3, 393–399 (2000).

  162. 162.

    K. A. Rezaei Gomari, R. Denoyel, and A. A. Hamouda, J. Colloid Interface Sci., 297, No. 2, 470–479 (2006).

  163. 163.

    V. S. Yushchenko, V. V. Yaminsky, and E. D. Shchukin, J. Colloid Interface Sci., 96, No. 2, 307–314 (1983).

  164. 164.

    S. G. Ash and G. H. Findenegg, Spec. Disc., Faraday Soc., 1, No. 9, 1–7 (1970).

Download references

Author information

Correspondence to Yu. I. Tarasevich.

Additional information

__________

Translated from Teoreticheskaya i Éksperimental’naya Khimiya, Vol. 44, No. 1, pp. 1–23, January–February, 2008.

Rights and permissions

Reprints and Permissions

About this article

Cite this article

Tarasevich, Y.I. Energetics of the interaction of water and other liquids with the surface of hydrophilic and hydrophobic sorbents according to data on the heats of wetting. Theor Exp Chem 44, 1–25 (2008). https://doi.org/10.1007/s11237-008-9006-0

Download citation

Key words

  • heat of wetting
  • thermodynamics of wetting
  • surface energy
  • liquid boundary layers
  • water
  • oxide adsorbents
  • silicates