Effect of Ionized Amino Acid on the Water-selective Permeation through Graphene Oxide Membrane in Pervaporation Process

doi:10.15541/jim20210354

[1] J ZHAO, G W HE, G H LIU et al. Manipulation of interactions at membrane interfaces for energy and environmental applications. Progress in Polymer Science, 80, 125-152(2018).

[2] D HUA, T S CHUNG, G M SHI, C FANG. Teflon AF2400/Ultem composite hollow fiber membranes for alcohol dehydration by high-temperature vapor permeation. AIChE Journal, 62, 1747-1757(2016).

[3] I PRIHATININGTYAS, B V D BRUGGEN. Nanocomposite pervaporation membrane for desalination. Chemical Engineering Research and Design, 164, 147-161(2020).

[4] F LIANG, Q LIU, J ZHAO et al. Ultrafast water-selective permeation through graphene oxide membrane with water transport promoters. AIChE Journal, 66, e16812(2020).

[5] L DAI, F XU, K HUANG et al. Ultrafast water transport in two-dimensional channels enabled by spherical polyelectrolyte brushes with controllable flexibility. Angew. Chem. Int. Ed., 60, 19933-19941(2021).

[6] R R NAIR, H A WU, P N JAYARAM et al. Unimpeded permeation of water through helium-leak-tight graphene-based membranes. Science, 335, 442-444(2012).

[7] M WANG, F PAN, L YANG et al. Graphene oxide quantum dots incorporated nanocomposite membranes with high water flux for pervaporative dehydration. Journal of Membrane Science, 563, 903-913(2018).

[8] Y SONG, R LI, F PAN et al. Ultrapermeable graphene oxide membranes with tunable interlayer distances via vein-likesupramolecular dendrimers. J. Mater. Chem. A, 7, 18642-18652(2019).

[9] D R DREYER, S PARK, C W BIELAWSKI et al. The chemistry of graphene oxide. Chemical Society Reviews, 39, 228-240(2010).

[10] L LIU, Q MA, J CAO et al. Recent progress of graphene oxide-based multifunctional nanomaterials for cancer treatment. Cancer Nano, 12, 18(2021).

[11] P SUN, M ZHU, K WANG et al. Selective ion penetration of graphene oxide membranes. ACS Nano, 7, 428-437(2013).

[12] I CHOWDHURY, N D MANSUKHANI, L M GUINEY et al. Aggregation and stability of reduced graphene oxide: complex roles of divalent cations, pH, and natural organic matter. Environmental Science & Technology, 49, 10886-10893(2015).

[13] P SUN, F ZHENG, M ZHU et al. Selective trans-membrane transport of alkali and alkaline earth cations through graphene oxide membranes based on cation-π interactions. ACS Nano, 8, 850-859(2014).

[14] W TANG, H LOU, Y LI et al. Ionic liquid modified graphene oxide-PEBA mixed matrix membrane for pervaporation of butanol aqueous solutions. Journal of Membrane Science, 581, 93-104(2019).

[15] S MANSHAD, A M ISLOOR, M G M NAWAWI et al. Pervaporation dehydration of bio-fuel (n-butanol) by dry thermal treatment membrane. Materials Research Express, 7, 065001(2020).

[16] J Y LEE, J S LEE, J LEE. P High performance and thermally stable PDMS pervaporation membranes prepared using a phenyl-containing tri-functional crosslinker for n-butanol recovery. Separation and Purification Technology, 235, 116142(2020).

[17] L XU, S LI, H MAO et al. An advanced necklace-like metal organic framework with an ultrahighly continuous structure in the membrane for superior butanol/water separation. J. Mater. Chem. A, 9, 11853(2021).

[18] D HUA, R K RAI, Y ZHANG et al. Aldehyde functionalized graphene oxide frameworks as robust membrane materials for pervaporative alcohol dehydration. Chemical Engineering Science, 161, 341-349(2017).

[19] D ACHRI, P RACHIPUDI, S NAIK et al. Polyelectrolyte complex membranes made of chitosan-PSSAMA for pervaporation separation of industrially important azeotropic mixtures. Journal of Industrial and Engineering Chemistry, 78, 383-395(2019).

[20] F KURSUN. Application of PVA-b-NaY zeolite mixture membranes in pervaporation method. Journal of Molecular Structure, 1201, 127170(2020).

[21] T ZHU, S XU, F YU et al. ZIF-8@GO composites incorporated polydimethylsiloxane membrane with prominent separation performance for ethanol recovery. Journal of Membrane Science, 598, 117681(2020).

[22] D ZHAO, Y F JI, G P LIU et al. Facilitated water-selective permeation via PEGylation of graphene oxide membrane. Journal of Membrane Science, 567, 311-320(2018).

[23] R CASTRO-MUNOZ, J BUERA-GONZALEZ, IGLESIA et al. Towards the dehydration of ethanol using pervaporation cross- linked poly(vinyl alcohol)/graphene oxide membranes. Journal of Membrane Science, 582, 423-484(2019).

[24] K GUAN, Q LIU, G ZHOU et al. Cation-diffusion controlled formation of thin graphene oxide composite membranes for efficient ethanol dehydration. Science China Materials, 62, 925-935(2019).

[25] X CHENG, W CAI, X CHEN et al. Preparation of graphene oxide/poly(vinyl alcohol) composite membrane and pervaporation performance for ethanol dehydration. RSC Advances, 9, 15457-15465(2019).

[26] T ZHU, YU X LE, M YI et al. Facile covalent crosslinking of zeolitic imidazolate framework/polydimethylsiloxane mixed matrix membrane for enhanced ethanol/water separation performance. ACS Sustainable Chem. Eng., 8, 12664-12676(2020).