Citation: | Stepan D. Bazhenov, Ilya L. Borisov, Danila S. Bakhtin, Anastasia N. Rybakova, Valery S. Khotimskiy, Sergey P. Molchanov, Vladimir V. Volkov. High-permeance crosslinked PTMSP thin-film composite membranes as supports for CO2 selective layer formation. Green Energy&Environment, 2016, 1(3): 235-245. doi: 10.1016/j.gee.2016.10.002 |
[1] |
Intergovernmental Panel on Climate Change
|
[2] |
International Energy Agency
|
[3] | |
[4] |
M.Aresta, A.Dibenedetto, A.Angelini , 3–4 (2013),pp. 65-73
|
[5] |
P.Styring, E.A.Quadrelli, K.Armstrong
|
[6] |
G.T.Rochelle Science, 325 (2009),pp. 1652-1654
|
[7] |
Z.Liang, W.Rongwong, H.Liua, et al. Int. J. Greenh. Gas Control, 40 (2015),pp. 26-54
|
[8] |
A.L.Kohl, R.Nielsen
|
[9] |
R.W.Baker
|
[10] |
K.Ramasubramanian, W.S.W.Ho Curr. Opin. Chem. Eng., 1 (2011),pp. 47-54
|
[11] |
E.Favre J. Membr. Sci., 294 (2007),pp. 50-59
|
[12] |
M.T.Ho, G.W.Allinson, D.E.Wiley Ind. Eng. Chem. Res., 47 (2008),pp. 4883-4890
|
[13] |
L.M.Robeson J. Membr. Sci., 320 (2008),pp. 390-400
|
[14] |
Y.Chen, L.Zhao, B.Wang, et al. J. Membr. Sci., 497 (2016),pp. 21-28
|
[15] |
Z.Qiao, Z.Wang, C.Zhang, et al. AIChE J., 59 (2013),pp. 215-228
|
[16] |
K.V.Otvagina, A.E.Mochalova, T.S.Sazanova, et al. Membranes, 6 (2016),p. 31
|
[17] |
A.A.Akhmetshina, I.M.Davletbaeva, E.S.Grebenschikova, et al. Membranes, 6 (2015),p. 4
|
[18] |
I.M.Davletbaeva, O.Yu.Emelina, I.V.Vorotyntsev, et al. RSC Adv., 5 (2015),pp. 65674-65683
|
[19] |
T.J.Kim, H.Vrålstad, M.Sandru, et al. J. Membr. Sci., 428 (2013),pp. 218-224
|
[20] |
T.J.Kim, B.Li, M.-B.Hägg J. Polym. Sci. Part B Polym. Phys., 42 (2004),pp. 4326-4336
|
[21] |
M.Sandru, T.J.Kim, M.-B.Hägg Desalination, 240 (2009),pp. 298-300
|
[22] |
L.Deng, T.J.Kim, M.-B.Hägg J. Membr. Sci., 340 (2009),pp. 154-163
|
[23] |
T.J.Kim, M.W.Uddin, M.Sandru, et al. Energy Procedia, 4 (2011),pp. 737-744
|
[24] |
M.Sandru, T.J.Kim, W.Capala, et al. Energy Procedia, 37 (2013),pp. 6473-6480
|
[25] |
W.Yave, A.Car, J.Wind, et al. Nanotechnology, 21 (2010)
|
[26] |
T.C.Merkel, H.Lin, X.Wei, et al. J. Membr. Sci., 359 (2010),pp. 126-139
|
[27] |
J.Zhou, M.M.Mok, M.G.Cowan, et al. Ind. Eng. Chem. Res., 53 (2014),pp. 20064-20067
|
[28] |
L.S.White, X.Wei, S.Pande, et al. J. Membr. Sci., 496 (2015),pp. 48-57
|
[29] |
J.Zhou, M.M.Tran, A.T.Haldeman, et al. J. Membr. Sci., 450 (2014),pp. 478-486
|
[30] |
J.Kim, Q.Fu, K.Xie, et al. J. Membr. Sci., 515 (2016),pp. 54-62
|
[31] |
S.Li, Z.Wang, C.Zhang, et al. J. Membr. Sci., 436 (2013),pp. 121-131
|
[32] |
J.M.P.Scofield, P.A.Gurr, J.Kim, et al. J. Membr. Sci., 499 (2016),pp. 191-200
|
[33] |
J.Schultz, K.V.Peinemann J. Membr. Sci., 110 (1996),pp. 37-45
|
[34] |
Y.J.Chendake, Y.S.Bhole, H.R.Lohokare, et al. Sep. Sci. Technol., 45 (2010),pp. 163-171
|
[35] |
V.V.Volkov Polym. J., 23 (1991),pp. 457-467
|
[36] |
Y.Hu, M.Shiotsuki, F.Sanda, et al. Macromolecules, 41 (2008),pp. 8525-8532
|
[37] |
P.H.M. Feron, V.V. Volkov, V.S. Khotimsky, V.V. Teplyakov, Membrane gas separation, US patent 7,591,878. B2, 2009.
|
[38] |
P.T.Nguyen, E.Lasseuguette, Y.Medina-Gonzalez, et al. J. Membr. Sci., 377 (2011),pp. 261-272
|
[39] |
C.A.Scholes, S.E.Kentish, G.W.Stevens Int. J. Greenh. Gas Control, 42 (2015),pp. 66-74
|
[40] |
D.A.Syrtsova, O.B.Borisevich, O.A.Shkrebko, et al. Sep. Puri. Technol., 57 (2007),pp. 435-439
|
[41] |
V.V.Volkov, A.V.Bildukevich, G.A.Dibrov, et al. Pet. Chem., 53 (2013),pp. 619-626
|
[42] |
G.A.Dibrov, V.V.Volkov, V.P.Vasilevsky, et al. J. Membr. Sci., 470 (2014),pp. 439-450
|
[43] |
A.V.Volkov, V.V.Parashchuk, D.F.Stamatialis, et al. J. Membr. Sci., 333 (2009),pp. 88-93
|
[44] |
A.V.Volkov, G.A.Korneeva, G.F.Tereshchenko Russ. Chem. Rev., 77 (2008),p. 983
|
[45] |
J.Stawikowska, M.F.Jimenez-Solomon, Y.Bhole, et al. J. Membr. Sci., 442 (2013),pp. 107-118
|
[46] |
S.Claes, P.Vandezande, S.Mullens, et al. J. Membr. Sci., 389 (2012),pp. 265-271
|
[47] |
A.Volkov, A.Yushkin, A.Grekhov, et al. J. Membr. Sci., 440 (2013),pp. 98-107
|
[48] |
S.E.Tsar’kov, A.O.Malakhov, E.G.Litvinova, et al. Pet. Chem., 53 (2013),pp. 537-545
|
[49] |
J.Peter, K.V.Peinemann J. Membr. Sci., 340 (2009),pp. 62-72
|
[50] |
H.Z.Chen, Z.Thong, P.Li, et al. Int. J. Hydrogen Energy, 39 (2014),pp. 5043-5053
|
[51] |
T.Li, Y.Pan, K.V.Peinemann, et al. J. Membr. Sci., 425 (2013),pp. 235-242
|
[52] |
D.Fritsch, P.Merten, K.Heinrich, et al. J. Membr. Sci., 401 (2012),pp. 222-231
|
[53] |
V.S.Khotimsky, M.V.Tchirkova, E.G.Litvinova, et al. J. Polym. Sci. Part A, 41 (2003),pp. 2133-2155
|
[54] |
A.V.Volkov, E.V.Fedorov, A.O.Malakhov, et al. Polym. Sci. Ser. B, 44 (2002),pp. 158-162
|
[55] |
N.R.Horn, D.R.Paul Macromolecules, 45 (2012),pp. 2820-2834
|
[56] |
L.S.KocherlakotaJr., D.B.Knorr, L.Foster, R.M.Overney Polymer, 53 (2012),pp. 2394-2401
|
[57] |
ASTM Designation: F 316 – 03
|
[58] |
A.Hernfindez, J.I.Calvo, P.Prfidanos, et al. J. Membr. Sci., 112 (1996),pp. 1-12
|
[59] |
T.C.Merkel, V.Bondar, K.Nagai, et al. J. Polym. Sci. Part B Polym. Phys., 38 (2000),pp. 273-296
|
[60] |
G.Shil, W.W.Ho J. Environ. Eng. Manag., 16 (4),pp. 233-241
|
[61] |
H.Matsuyama, A.Terada, T.Nakagawara, et al. J. Membr. Sci., 163 (2),pp. 221-227
|
[62] |
K.Nagai, A.Higuchi, T.Nakagawa J. Appl. Polym. Sci., 54 (1994),pp. 1207-1217
|
[63] |
A.G.Fadeev, S.S.Kelley, J.McMillan, et al. J. Membr. Sci., 214 (2003),pp. 229-238
|
[64] |
A.V.Volkov, V.V.Volkov, V.S.Khotimskii Polym. Sci. A, 51 (2009),pp. 1367-1382
|
[65] |
P.M.Budd, N.B.McKeown, B.S.Ghanem, et al. J. Membr. Sci., 325 (2008),pp. 851-860
|