Gregg S.J., Sing K.S.W. — Adsorption, surface area and porosity :: Электронная библиотека попечительского совета мехмата МГУ

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Gregg S.J., Sing K.S.W. — Adsorption, surface area and porosity

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Название: Adsorption, surface area and porosity

Авторы: Gregg S.J., Sing K.S.W.

Аннотация:

The principal aim of the second edition of this book remains the same as that of the first edition: to give a critical exposition of the use of the adsorption methods for the assessment of the surface area and pore size distribution of finely divided and porous solids.

Язык:

Рубрика: Технология/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Издание: 2nd edition

Год издания: 1982

Количество страниц: 303

Добавлена в каталог: 18.10.2005

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID

Предметный указатель

Monolayer capacity, Type VI isotherm and      89
Monolayer, packing in      62 66—72 83
Montmorillonite, adsorption on      132 237
Morimoto, T.      272 276(37)
Morrison, J.L.      7(22) 56 59(29) 79(85)
Mottlan, A.Y.      183(106)
Mueller, A.      5(15)
Multilayer region      89—94
Multilayer region, BET equation and      54
Multilayer region, Frenkel — Halsey — Hill equation and      89
Multilayers      10 84
Munuera, G.      279(43)
Muroya, M.      269(30)
Myers, A.L.      242(76)
Nagao, M.      272 276(37)
Nagarajan, V.      250(5)
Nair, N.K.      77(78)
Naono, H.      269 272 274 277(29)
Neon, adsorption of      8 10
Neopentane, molecular diameter of      232
Net heat of adsorption      44
Network effects, capillary condensation and      150
Network effects, mercury porosimetry and      186
Newnham, C.E.      218 219 222(37)
Nicholson, D.      79(87) 84(102) 89(114) 207(21)
Nicolaon, G.A.      76 92(72) 165(76) 215(28)
Nikitin, Yu.S.      11(34)
Nitrogen, adsorption of      12 50 52—57 59—62 74 93 101 102 115—117 132 162 188 205 212 213 215 219 222 229 238 240 241 267 268
Nitrogen, minimum dimension of      230
Nitrogen, molecular area of      62 66 72 83
Nitrogen, surface area from adsorption of      52 62 65 72 83 188 212 238 258
Nitrogen, thickness of film of      135
Nonaka, A.      274(49)
Nonane, pre-adsorption of      211 215—217 219 222 239—241
Norton, F.H.      176(84)
Nye, J.F.      19(42)
Ockrent, C.      177(93)
Octane, adsorption of      58 250
Odler, I.      81 82(97) 92(132)
Olds, F.M.W.      268(25)
Olds, R.M.      231(62)
Olivier, J.P.      20(43)
Olson, L.L.      176(85)
Onishi, Y.      76 83(69)
Orr, C.      26(50) 136—138(35) 173(78) 190(119)
Orr, W.J.C.      10(27)
Osinga, Th.J.      86 91 92(109)
Outgassing of adsorbent      284
Oxygen, adsorption of      53 56 60 82 132
Oxygen, chemisorbed      263—266
Oxygen, molecular area of      82
Pace, E.L.      58 59(31) 75(63)
Packer, R.K.      156(65) 256(14)
Packing factor      62
Pak, H.      153(53)
Parfitt, G.D.      70(51) 104 105(140) 215 216(32 33) 217(32) 249(6 7) 251 256(7) 277—279(41 43)
Parkyns, N.D.      269(28) 280(46)
Particle size distribution      26—36 63
Particle size, mean projected diameter of      36 63
Particle size, specific surface from      21 26 30 63
Particle size, volume-surface mean diameter of      36
Partyka, S.      66(47) 72 89(56)
Pashley, R.M.      269(28)
Patel, R.L.      228(54)
Payne, D.A.      72(55) 74(60) 76 77(55) 77(55 60) 90(119) 92(60 131) 99(60)
Peacock, J.      70(51) 249(6 7) 251 256(7) 277—279(41)
Peloso, A.      184 185(109)
Penetration by water      238 266
Peres, C.      72 89(56)
Perret, A.      227(49)
Petrash, D.A.      177(94)
Pickering, H.L.      76(74)
Pickett, G.      53(21)
Pidduck, A.      274(49)
Pierce, C.      72 75 76(52) 90(117) 91(124 128) 92(124) 136 137(34) 200 209(9) 268(26)
Pirard, J.P.      92(133) 215(31)
Pisani, C.      8 9(25)
Plateau in adsorption isotherm      112 195 200 202
Platschenov, T.C.      177(91)
Point B      54 55
Point of inflection      48 248 255
Polanyi theory      219
Polanyi, M.      207(20) 219(39)
Polley, M.H.      88(110)
Polycarbonate, adsorption on      250
Polymethylmethacrylate, adsorption on      250
Polypropylene, adsorption on      12
Pomeshchikov, V.D.      228(55)
Pope, M.I.      155 156(60) 229(59) 236(71)
Pore size distribution calculation      132—152 286
Pore size distribution calculation, Brunauer et al. (modelless) method      145
Pore size distribution calculation, Dollimore — Heal method      138
Pore size distribution calculation, Foster method      133
Pore size distribution calculation, multilayer correction in      136
Pore size distribution calculation, Pierce, Orr — Dalla Valle method      136
Pore size distribution calculation, Robert's method      142
Pore size distribution calculation, role of adsorbed film in      133
Pore size distribution, cumulative surface area from      169
Pore size distribution, Kelvin equation for      132
Pore size distribution, mercury porosimetry for      178
Pore size distribution, network effects and      150
Pore size distribution, packed sphere model for      149
Pore size distribution, photomicrography for      180
Pore size distribution, use of various adsorptives for      166
Pore volume, evaluation of      113—115 187 200—202
Pore volume, Gurvitsch rule and      113 200
Pore volume, liquid titration and      182
Pore, blocking      150 240
Pore, closed      38
Pore, filling      202 220 266
Pore, formation      24
Pore, open      38
Pore, shape      21—23
Pore, structure      24—26 129 150—152 164 181 186 190 229 236 239 241—244
Pores between packed spheres      130 185
Pores, classification of      25
Pores, cone-shaped      129
Pores, cylindrical      113 127
Pores, ink-bottle      128 183
Pores, slit-shaped      23 130 144 243
Pores, wedge-shaped      23 129
Porosimetry      180 see
Potassium chloride, adsorption on      8 10
potential energy      5 8
Potential energy, curve      6 20 208
Potential, Lennard-Jones      5
Powl, J.C.      200 207 208(8)
Pozdeev, V.V.      228(55)
Pre-adsorption techniques      70 211 215—217 219 222 239—241 249—251
Prenzlow, C.F.      75(67) 84 85 89(105) 163(74) 187 188(117) 250(9)
Prigogine, I.      120(15)
Primary particles      21
Pritchard, J.      79(86)
PTFE, adsorption on      250
Pultz, W.W.      59(38)
Putnam, F.A.      58(32)
Pyridine, adsorption of      237
Quadrupole moment      7
Quartz, adsorption on      36 259
Quinn, H.W.      233(67)
Raal, F.A.      114(9)
Radius of curvature      118 121
Radius of curvature, core size and      122
Radius of curvature, mean      119
Radius of curvature, pore size and      121
Radius of curvature, surface tension effect and      153
Radius of gyration      227
Radius, hydraulic      145
Radushkevich, L.V.      219(38)
Rahman, A.A.      280(47)

Ramakrishna, V.R.      12(36)
Ramsay, J.D.F.      154 155(55) 202 205(16)
Rand, B.      225(46)
Rao, K.S.      128(26)
Rayment, T.      81(94)
Reay, J.S.S.      132(28) 237(72)
reference materials      94 98 104 105
Reverberi, A.      184 185(109)
Rhodin, T.N.      62(39)
Ricca, F.      8 9(25)
Ritter, H.L.      176 177 181 183(80)
Rivin, D.      264 266(27)
Roberts, B.F.      138 142 143 146(42)
Roberts, H.K.      176(86)
Roberts, R.H.      79(86)
Robinson, J.G.      211(25)
Rochester, C.H.      279(43)
Roetti, C.      8 9(25)
Rootare, H.M.      187 188(117)
Ross, S.      20(43) 59(38)
Roughness factor      62 64
Rouquerol, F.      13(39 40) 14(40) 57(30) 66(47) 72(56 58) 89(56 112) 280(44)
Rouquerol, J.      13(39 40) 14(40) 57(30) 66(47) 72(56 58) 89(56 112) 280(44)
Ruthven, D.M.      198(5)
Saez Puche, R.      215(28)
Sams, J.R.      58 59(31)
Sappok, R.      21(45)
Sarakhov, A.I.      52 58 70(17)
Scanning hysteresis loop      150
Schaeffer, W.D.      88(110)
Scheele, C.W.      1(2)
Schofield, R.K.      156(69)
Scholten, J.J.F.      177(95)
Schreiner, G.D.L.      45(5)
Schwancke, A.E.      176(88)
Schwartz, A.M.      177(94)
Secondary particles      21
Segal, D.L.      90(121)
Shape factor      63
Shaw, C.G.      89(114)
Shingles, T.      201(13)
Shirley, F.P.      249(6)
Shore, J.W.      181(103)
Shull, C.G.      54(24) 91(125) 138(38)
Sibut Pinote, R.      181(102)
Siebert, A.R.      58 59(31) 75(63)
Silica, adsorption on      12 50 54 65 71 74 81 83 93 102 161 162 234 251 252 259—261 269 270
Silica, mercury intrusion by      182
Silver foil, adsorption on      51 67
Silvester, R.G.      84(102)
Sing, K.S.W.      12(36) 38(59) 45 49(7) 53(18 20) 54(20) 55 56(18) 72(55 58) 74(60) 76(55 70) 77(55 60) 78(83) 79(87) 82 83(99) 89(114) 90(117 118 121 143) 91(123 130) 92(60 131) 93(130) 98( 99(60) 104 105(140) 135 140(32) 160 161(32 73) 188 189(118) 204 206(19) 207(21) 210(24) 211(19 24 25) 214(24) 215(24 32) 216 217(32) 234(68) 238(73) 239(68) 243(78) 244(81) 257(17 18) 258(18) 261(17) 269(28) 271(35) 280(44 46 47)
Singleton, J.H.      87(106)
Skalny, J.      53(23) 216(34)
Skold, R.      179 181(96)
Slater, J.C.      6(16)
Smith, R.N.      200 202(9) 268(26)
Smith, T.      138 146 151 174(36)
Smith, W.R.      75(65) 88(110)
Sodium chloride, adsorption on      10
Sorption, definition of      2
Soto, J.L.      242(76)
Souny, P.      86(107)
Specific surface determination      41 61 66 72 102—105 283
Specific surface determination, $\alpha_{s}$ -plots for      98 257
Specific surface determination, accuracy      104
Specific surface determination, adsorptives for      72 73 257
Specific surface determination, Kiselev method for      169
Specific surface determination, mercury porosimetry for      187 188
Specific surface determination, microscopy for      63 65
Specific surface determination, particle size and      21 26 30
Specific surface determination, standards for      104 105
Specific surface determination, t-plots for      95
Specific surface determination, Type II isotherm for      61 102
Specific surface determination, Type III isotherm for      255
Specific surface determination, Type IV isotherm for      168
Spencer, D.H.T.      187(115)
Spencer, W.B.      58(32) 85(103)
Standard isotherms      90—94
Standard isotherms, choice of reference adsorbent for      94
Standard isotherms, different c-values and      92
Stannic oxide gel, adsorption on      233
Steele, W.A.      6 10(17) 45 49(7) 89(116)
Step-like isotherms      77 84 250
Step-like isotherms, estimation of monolayer capacity from      89
Stock, R.      155(62) 196(1) 200(1 10) 211(1) 253 254 256 260(13)
Stoeckli, H.F.      10(26) 221(40) 223(42) 227(42 49 50)
Stoeckli-Evans, H.      10(26)
Stoever, P.      264 266(27)
Stone, F.S.      198(6) 279(43)
Stowe, R.A.      185(112)
Stryker, L.J.      72 76 77(55) 160 161 238(73) 280(47)
Sulphur, adsorption on      10
Supermicropores      26 244
Surface heterogeneity      57 58 249
Surface modification      70 249—251
Surface of microporous solids      199 200 212—218
Surface tension of mercury      176
Surface tension, change with curvature      153 157
Surface, external and internal      23
Surface, high and low energy      59
Svata, M.      184 185(10)
Swallow, D.      78(83)
Swelling      234—238
t-curve      91 94
t-plots      94
t-plots, effect of mesoporosity      96 210
t-plots, effect of microporosity      97 211
t-values, table of      135
Taylor, J.A.C.      270(33)
Tayyab, M.M.      154(56) 156(56 66) 160 162(56) 214 239—241(27)
Teflon, adsorption on      60
Teichner, S.J.      76 92(72) 165(76) 215(28)
Teller, E.      3(9) 4(8) 42^4 49 50(1)
Tensile strength effect      154
Tensile strength hypothesis      157—159
Thickness of adsorbed layer      94 133 167
Thomas, R.K.      81(94)
Thomson, W.T.      112(3)
Thomy, A.      86(107) 87(106) 89(113)
Titania, adsorption on      53 56 60 65 215 251 277
Tokuda, F.      272 276(37)
Tolansky, S.      18(41)
Troy, M.      78(81)
Turk, D.H.      74(60) 77(60 77) 91(130) 92(60) 93(130) 99(60) 135 140 160 161(32) 204 206 211(19)
Turner, N.H.      63 78(40)
Type I isotherms      195
Type I isotherms, classical interpretation      196
Type I isotherms, distortion in      204
Type I isotherms, enhanced heat of adsorption and      204 206
Type I isotherms, Gurvitsch rule and      200
Type I isotherms, hysteresis in      195 196
Type I isotherms, micropore volume from      209
Type II isotherms      41
Type II isotherms, knee of      46
Type II isotherms, point B and      54
Type II isotherms, point of inflection on      48
Type III isotherms      248
Type IV isotherms      111
Type V isotherms      258
Type VI (step-like) isotherms      77 84 250
Tyson, R.F.S.      231(62)
Uhlig, H.H.      80(91)
Ultramicropores      26 244
Unger, K.K.      182(105) 187(120) 269(28)
Urwin, D.      215 216(32 33) 217(32)
Uytterhoeven, J.      270(31)
van Beek, W.P.      131 160(25)
van Bemmelen, J.M.      111(1)
Van der Waals forces      2
van Krevelin, D.W.      229(58)

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