438                Polymer-based Nanocomposites for Energy and Environmental Applications

         [134] Yang SY, Park J, Yoon J, Ree M, Jang SK, Kim JK. Virus filtration membranes prepared
              from nanoporous block copolymers with good dimensional stability under high pressures
              and excellent solvent resistance. Adv Funct Mater 2008;18(9):1371–7.
         [135] Thormann A, Teuscher N, Pfannmoller M, Rothe U, Heilmann A. Nanoporous aluminum
              oxide membranes for filtration and biofunctionalization. Small 2007;3(6):1032–40.
         [136] Walker CH, St. John JV, Wisian-Neilson P. Synthesis and size control of gold
              nanoparticles stabilized by poly (methylphenylphosphazene). J Am Chem Soc 2001;
              123(16):3846–7.
         [137] Nath M, Rao CNR. New metal disulfide nanotubes. J Am Chem Soc 2001;123(20):
              4841–2.
         [138] Qiu H, Zhai J, Li S, Jiang L, Wan M. Oriented growth of self-assembled polyaniline
              nanowire arrays using a novel method. Adv Funct Mater 2003;13(12):925–8.
         [139] Bustero I, Ainara G, Isabel O, Roberto M, In  es R, Amaya A. Control of the properties of
              carbon nanotubes synthesized by CVD for application in electrochemical biosensors.
              Microchim Acta 2006;152(3–4):239–47.
         [140] Salim W, Ho WSW. Recent developments on nanostructured polymer-based
              membranes. Curr Opin Chem Eng 2015;8:76–82.
         [141] Madaeni S, Badieh M, Vatanpour V, Ghaemi N. Effect of titanium dioxide nanoparticles
              on polydimethylsiloxane/polyethersulfone composite membranes for gas separation.
              Polym Eng Sci 2012;52(12):2664–74.
         [142] Lua AC, Shen Y. Preparation and characterization of polyimide-silica composite
              membranes and their derived carbon-silica composite membranes for gas separation. Chem
              Eng J 2013;220:441–51.
         [143] Zhao Y, Jung BT, Ansaloni L, Ho WW. Multiwalled carbon nanotube mixed matrix
              membranes containing amines for high pressure CO 2 /H 2 separation. J Membr Sci
              2014;459:233–43.
         [144] Japip S, Wang H, Xiao Y, Chung TS. Highly permeable zeolitic imidazolate framework
              (ZIF)-71 nano-particles enhanced polyimide membranes for gas separation. J Membr Sci
              2014;467:162–74.
         [145] Shen J, Liu G, Huang K, Jin W, Lee KR, Membranes XN. With fast and selective
              gas-transport channels of laminar graphene oxide for efficient CO 2 capture. Angew
              Chem 2015;127(2):588–92.
         [146] Buonomenna M. Nano-enhanced reverse osmosis membranes. Desalination 2013;
              314:73–88.
         [147] Kim SG, Hyeon DH, Chun JH, Chun B-H, Kim SH. Nanocomposite poly(arylene
              ether sulfone) reverse osmosis membrane containing functional zeolite nanoparticles
              for seawater desalination. J Membr Sci 2013;443:10–8.
         [148] Ho W, Sirkar K. Membrane handbook. reprinted ed. Norwell: Kluwer Academic
              Publishers; 2001.
         [149] Lai CY, Groth A, Gray S, Duke M. Nanocomposites for improved physical durability of
              porous PVDF membranes. Membranes 2014;4(1):55–78.
         [150] Akar N, Asar B, Dizge N, Koyuncu I. Investigation of characterization and biofouling
              properties of PES membrane containing selenium and copper nanoparticles. J Membr
              Sci 2013;437:216–26.
         [151] Guillen GR, Pan Y, Li M, Hoek EM. Preparation and characterization of membranes
              formed by nonsolvent induced phase separation: a review. Ind Eng Chem Res
              2011;50(7):3798–817.
         [152] Wu H, Tang B, Wu P. Development of novel SiO 2 -GO nanohybrid/polysulfone
              membrane with enhanced performance. J Membr Sci 2014;451:94–102.