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| Авторизация |
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| Gregg S.J., Sing K.S.W. — Adsorption, surface area and porosity |
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| Предметный указатель |
Experimental method, choice of 283
External surface 23 210 212 214 216
f-plots 100
Fain, S.C. 89(114)
Fair, G.M. 36(56)
Falke, W.L. 176(88)
Feraiolo, G. 184 185(109)
Ferric oxide, adsorption on 78 114 274—277
Fischer, H. 182(105)
Fisher, N.E. 183(106)
Fisher, P.W. 242(76)
Flood, E.A. 157(71)
Fobens, E. 65(44)
Fontana, F. 1(1)
Forces, dispersion 4 8 11
Forces, electrostatic 4
Forces, repulsive 4 5 11
Ford, D.G. 75(65)
Foresti, R.J. 75(62)
Fort, T. 58(32)
Foster, A.G. 114(6) 132 138 145(30) 200(11 12) 201(11)
Freeman, J.J. 188 189(118)
Frenkel — Halsey — Hill equation 89 90
Freon—1, adsorption of 51
Frevel, L.K. 185(111)
Fripiat, J.J. 270(31)
Frohnsdorff, G.J.C. 72(54)
Fubini, B. 280(45)
Fujiwara, R. 269(29 30) 272 274(29) 277(22)
Fuller, E.L. 76(75) 280(46)
Furlong, D.N. 72(58) 278(42) 280(44)
Gammage, R.B. 76(75) 80(90) 238 239(74) 251 253 256(11) 280(47)
Garrone, E. 8 9(25)
Gaussian distribution of micropore size 220
Gaussian distribution of panicle size 27
Genot, B. 46(9) 86(108)
Geometric surface area 62 65 66
Gibbs, J.W. 153(52)
Giles, C.H. 138(36) 146 151 174(38)
Glass, adsorption on 63 115 233 259 see
Glessner, A.J. 242(76)
Golshan, H. 186(114)
Goodman, J.F. 203(14) 233(66) 273(36)
Gottwald, B.A. 228(52)
Graham, D.P. 250(4)
Graham, M.J. 55(28) 79(84)
Granville, A. 228(53)
Graphite, adsorption on 79 156 233
Graphitized carbon black, adsorption on 12 57—59 61 64 70 75 80 84—89 100 262 264 267
Gregg, S.J. 46(8) 100(138 139) 102(138) 114 116 117 151 152 154(8) 155(59—61) 156(59—61 66 68) 160—162 172—174(8) 196 200(1) 211(1 26) 212 213(26) 214(27) 223(43) 229(59) 231(62) 236(71) 238(74) 239(27 74) 240 241(27) 251(11) 253(11 13) 254(13) 256(11 13 16) 260(13)
Grillet, Y. 57 58(30) 72(56) 89(56 112)
Groves, M.J. 26(54)
Grubb, L.S. 177(94)
Guggenheim, E.A. 153(50)
Gurfein, N.S. 207(23)
Gurvitsch, L. 113(5)
Hagymassy, J. 81 82(97) 92(132)
Halenda, P.H. 138(39)
Hall, P.G. 75(66) 100(141) 100(66 141) 101(66) 218(36) 228(53) 274(49)
Halsey equation 89
Halsey, G.D. 49(11) 58 59(31) 84(101 105) 86(105) 87(106) 89(101 105) 90(101) 163(74)
Hanna, K.M. 81 82(97) 92(132)
Harkins — Jura method 66
Harkins, W.D. 66(48) 76(68) 78(48)
Harnsbcrger, H.F. 73 78—83(59)
Harris, B.L. 68 69(49)
Harris, M.R. 53 54(20) 76(70) 83(100) 91(123 130) 93(130) 154(54)
Harrison, B.H. 232(63)
Hatch, L.P. 36(56)
Havard, D.C. 138 146(36) 150(47) 151(36) 168(47) 174(36)
Hayes, F.H. 55(28) 79(84)
Haynes, J.M. 124 125 136(21) 149(45) 150(49) 154 173(21) 185(112) 186(21 45 49)
Heal, G.R. 138 140 141(41) 150(46)
Heat of adsorption 12—14
Heat of adsorption, isosteric 12 13 16 42
Heat of adsorption, monolayer completion and 58—60 87
Heat of adsorption, net 17 44
Heat of immersion 66 232
Heath, N.S. 199 203(7)
Helium, adsorption of 8 10
Henneberry, G.O. 63 64(41)
Henry's law 228
Heptane, adsorption of 58
Herdan, G. 26 27(51)
Heterogeneity, energetic 20 49 86
Heterogeneous surface 57 58 249
Hexane, adsorption of 58 240 250 254 262
Heywood, H. 26(52 53) 36(52)
Hickman, J. 156(67 68)
Hill equation 89
Hill, K.J. 156(64)
Hill, T.L. 13(37) 45 49(6) 58 59(31) 61(142) 89(115)
Hockey, J.A. 270(33) 279(43)
Hofmann, V. 64(43)
Hollabaugh, C.M. 274(38)
Holmes, H.F. 76(75) 280(46)
Honig, J.M. 10(28) 76 77(79)
Honigmann, B. 21(45)
Hope, C.J. 228(53)
Horlock, R.F. 10(29) 207(22)
Hottovy, T.D. 183(107)
Houriet, J.Ph. 223(42) 227(42 49)
House, W.A. 10(32)
Howard, C.R. 215(28)
Hsing, H.H. 53 81(19) 249(6)
Hu, P.C. 250(8)
Huber, U. 223(42) 227(42 49)
Hydrogen bonding 249 263 267 272 276 279
Hydrophilic surface of carbon 266
Hydroxyl groups, surface concentration of 269 272 273 276
Hydroxylated surface 269 270 279
Hysteresis loop 3 112
Hysteresis loop, lower closure of 154
Hysteresis loop, scanning of 150
Hysteresis loop, Type 1 isotherms with 195
Hysteresis loop, types of 116 117 285 287
Hysteresis, cylindrical pores and 127
Hysteresis, in mercury porosimetry curves 183
Hysteresis, ink-bottle pores and 128
Hysteresis, interstices between packed spheres and 130
Hysteresis, low-pressure 156 195 231 233 266 268 271—273
Hysteresis, Type I isotherms and 195
Hysteresis, Type V isotherms and 266 268
Iceland Spar, adsorption on 253
Iler, R.K. 65(46) 269(28)
Imai, J. 272 276(37)
Immersion heat of 66 232
Inkley, F.A. 91(127) 138(40)
Innes, W.B. 183(106)
interaction energy 4—12
Interaction energy in very fine pores 207—209
Interaction energy, Type III isotherms and 249—253
Interaction energy, Type V isotherms and 249
Intercalation of adsorbate 235 237
Internal surface 23
Intrusion pressure, effect on pore structure of 181 186
Ioioleva, K.A. 176(83)
Ione, K.G. 136 166(33)
Ionic crystals, adsorption on 10
Ishizaki, E. 274(49)
Isirkyan, A.A. 58(34) 81(93) 82(98)
Isostere 17
Isosteric enthalpy of adsorption 12 13 42
Isotherm, classification of 4
Iwaki, T. 250(5)
Jackson.P. 279(43)
Jacobs, J. 46(8)
Janov, T. 264 265(22)
Jaycock, M.J. 10(32)
Jellinek, H.H.G. 250(5)
| Jeziorowski, H. 215(28)
Jhou, M.S. 153(53)
Johnson, J.A. 176(85)
Jones, D.C. 46(9) 253 256(12)
Jones, P. 279(43)
Joyner, L.G. 58(31) 59(31 35) 61(142) 138(39) 179 181(96)
Juhola, A.J. 181(101)
Jura, G. 66 78(48)
Kadlec, O. 157 159(70)
Kaganer, D.F. 228(51)
Kamakin, N.N. 183 184(108)
Karnaukhov, A.P. 21(46) 136 166(33)
Katz, S.M. 128(26)
Kayser, H. 1(5)
Kazmenko, I.A. 82(98)
Kelvin equation 112 121 164 166 168
Kelvin equation, derivation of 120
Kelvin equation, pore size distribution and 132—136
Kelvin equation, range of validity of 153 154 157
Kemball, C. 45(5) 176(81)
Kingery, W.D. 176(84)
Kington, G.L. 72(54)
Kirkwood, J.G. 5(15) 6(16)
Kiselev, A.V. 6 7(20) 11(33—35) 55(33 34) 58(33) 59(38) 70 71(50) 75(64) 76(137) 77(78) 80(88 92) 81(50 93 95 96) 82(96) 91(122) 92(137) 114(11) 148(43) 169(11 43) 204(18) 228(56) 244(80) 248(1) 251 252(10) 258 259(19) 262(20 48) 263(21) 266 267(20) 270(32)
Kiselev, S.A. 11(35) 81(95)
Kitchener, J.A. 269(28)
Klemm, R.B. 177(94)
Klemperer, D.F. 228(52)
Knowles, A. 78(82)
Knozinger, H. 215(28)
Kodera, K. 76 83(69)
Kondo, S. 269(30)
Koplienko, L.S. 207(23)
Kovaleva, N.V. 11(34) 262(48) 263(21)
Kraemer, E.O. 128(26)
Kraus, T. 264 266(27)
Krebs, K.F. 187(120)
Kressley, L.J. 185(111)
Kruyer, S. 177 185(92)
Krypton, adsorption of 10 55 58 77 85 86 233
Krypton, molecular area of 78
Krypton, stepped isotherms with 84 85
Krypton, surface areas from adsorption of 77
Kuon, E.E. 136 166(33)
Kuznetsov, B.V. 11(35) 81(95)
Lamond, T.G. 224(44)
Lander, J.J. 79(85)
Langford, J.F. 100(139) 114 116 117 151 152 154 160—162 172—174(8) 211—213(26)
Langmuir isotherm 43 197 199
Langmuir plots 198
Langmuir, I. 42(2) 43(2 3) 197(3)
Laplace, P.S. 118(14)
Lard, E.W. 182(104)
Larher, Y. 85(104)
Lattice strain 19
Leard, M. 10(31)
Lecloux, A. 92(133) 215(31)
Lee, J.A. 218 219 222(37)
Lemcoir, N.O. 82 83(99)
Lennard-Jones potential 5 8
Lennard-Jones, J.E. 5(14)
Letoquart, C. 13(39)
Letort, M. 86(107)
Liabastre, A.A. 173(78) 190(119)
Linsen, B.G. 86(109) 91(109 126) 92(109) 95(135)
Lippens, B.C. 91(126) 94(134) 95(135)
Liu, F.W.J. 65(45)
Locke White 48(10)
London, F. 5 6(11)
Lopez-Gonzalez, J. de D. 58 59(31)
Loughlin, K.F. 198(5)
Low-pressure hysteresis 156 195 231 233 242 266 268 271—273
Luh, M.D. 250(5)
Lygina, I.A. 58(34)
Macdougal, G. 177(93)
MacIver, D.S. 52(16)
MacLeod, D.M. 49(13) 132(28)
Macropores, definition of 25
Madeley, J.D. 234 239(68)
Maggs, F.A.P. 187(116) 228(57)
Magnesia, adsorption on 162
Maiden, P.J. 78(80)
Manganese dioxide, adsorption on 219
Mann, R. 186(113 114)
Marsh, H. 224(44) 225(46) 229 230(60)
Marsh, J.D.F. 78(80)
Mather, R.R. 90(121)
Mayer, R.P. 185(112)
McBain, J.W. 2(7) 128(26)
McCaflerty, E. 275(39)
McClellan, A.L. 73 78—83(59)
McDaniel, M.P. 183(107)
McDermott, H.L. 234(69) 268(23)
McEnaney, B. 233 236(64)
McIntosh, R. 233(67)
McKenzie, N. 49(13) 132(28)
McLeod, A.I, 90(120 143) 243(78)
McMillan, W. 138 146 151 174(36)
Mean diameter of particles 35 36
Mean radius of curvature 119 160 164
Mean radius of curvature, relation to core size 121
Mean radius of curvature, relation to pore size 121
Meehan, P. 81(94)
Melik-Gaikazyan, V.I. 176(87)
Mellier, A. 10(31)
Melrose, J.C. 153 157(51)
Meniscus, form of 122—131
Mercury porosimetry 173—190
Mercury porosimetry, effect on pore structure of 181
Mercury porosimetry, hysteresis in 183
Mercury porosimetry, network effects and 186
Mercury porosimetry, pore size distribution from 178
Mercury porosimetry, surface area from 187
Mercury, contact angle of 177 181 186
Mercury, surface tension of 176
Mesopores, definition of 25
Mesoporous solids 111—117 138 150—152 155 160—162 188
Metal oxides, adsorption on 274—281
Methanol, adsorption of 237
Meye, W. 215(28)
Microcalorimetric studies 66 280
Micropore volume 37 200—202
Micropores, activated entry into 229
Micropores, constriction in 228 229
Micropores, definition of 25 37
Micropores, enhancement of potential in 207—209
Micropores, heat of adsorption in 204
Micropores, heat of immersion of 230
Micropores, subdivision of 242 244
Microporosity, assessment of 209 211 214 218 286
Microporosity, effect on Type II isotherm 210
Microporosity, effect on Type IV isotherm 211
Mieville, R.L. 215(28)
Mikhail, R.Sh. 77(78) 92(132) 134 145(31) 215 244(29)
Mikhailova, E.A. 58(34)
Miles, A.J. 235(70)
Millard, B. 88(111)
Miller, V.R. 176(88)
Mitchell, S.A. 91 93(130)
Mitscherlich, E. 1(4)
Mobility of adsorbate 10 69
Moffatt, J.B. 78(82)
Molecular area 41 61 62 66—73 83 274
Molecular area of nitrogen 62 66 78 83
Molecular area, dependence on nature of surface 68—70
Molecular sieve effect 201 232 240
Monolayer 41
Monolayer capacity 41 48 55 77
Monolayer capacity, test of validity of 57—61
Monolayer capacity, Type III isotherm and 255
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