과제정보
This research was supported by the Ministry of Trade, Industry, and Energy (MOTIE, Korea) (20218520040040 and 20203030040030).
참고문헌
- K. F. L. Hagesteijn, S. Jiang, and B. P. Ladewig, "A review of the synthesis and characterization of anion exchange membranes", J. Mater. Sci., 53, 11131 (2018).
- H. A. Miller, K. Bouzek, J. Hnat, S. Loos, C. I. Bernacker, T. Weissgarber, L. Rontzsch, and J. Meier-Haack, "Green hydrogen from anion exchange membrane water electrolysis: A review of recent developments in critical materials and operating conditions", Sustain. Energy Fuels, 4, 2114 (2020).
- S. A. Lee, J. Kim, K. C. Kwon, S. H. Park, and H. W. Jang, "Anion exchange membrane water electrolysis for sustainable large-scale hydrogen production", Carbon Neutralization, 1, 26 (2022).
- I. Vincent and D. Bessarabov, "Low cost hydrogen production by anion exchange membrane electrolysis: A review", Renew. Sustain. Energy Rev., 81, 1690 (2018).
- N. Du, C. Roy, R. Peach, M. Turnbull, S. Thiele, and C. Bock, "Anion-exchange membrane water electrolyzers", Chem. Rev., 122, 11830 (2022).
- D. Pan, T. H. Pham, and P. Jannasch, "Poly(arylene piperidine) anion exchange membranes with tunable N-alicyclic quaternary ammonium side chains", ACS Appl. Energy Mater., 4, 11652 (2021).
- M. Mandal, G. Huang, N. U. Hassan, W. E. Mustain, and P. A. Kohl, "Poly(norbornene) anion conductive membranes: Homopolymer, block copolymer and random copolymer properties and performance", J. Mater. Chem. A, 8, 17568 (2020).
- N. Yu, J. Dong, H. Li, T. Wang, and J. Yang, "Improving the performance of quaternized SEBS based anion exchange membranes by adjusting the functional group and side chain structure", Eur. Polym. J., 154, 110528 (2021).
- T. H. Pham, J. S. Olsson, and P. Jannasch, "Poly(arylene alkylene)s with pendant N-spirocyclic quaternary ammonium cations for anion exchange membranes", J. Mater. Chem. A, 6, 16537 (2018).
- R. Vinodh, S. S. Kalanur, S. K. Natarajan, and B. G. Pollet, "Recent advancements of polymeric membranes in anion exchange membrane water electrolyzer (AEMWE): A critical review", Polymers, 15, 2144 (2023).
- L. Liu, L. Bai, Z. Liu, S. Miao, J. Pan, L. Shen, Y. Shi, and N. Li, "Side-chain structural engineering on poly(terphenyl piperidinium) anion exchange membrane for water electrolysers", J. Membr. Sci., 665, 121135 (2023).
- J. S. Olsson, T. H. Pham, and P. Jannasch, "Tuning poly(arylene piperidinium) anion-exchange membranes by copolymerization, partial quaternization and crosslinking", J. Membr. Sci., 578, 183 (2019).
- S. Thangarasu, T. H. Oh, "Recent developments on bioinspired cellulose containing polymer nanocomposite cation and anion exchange membranes for fuel cells (PEMFC and AFC)", Polymers, 14, 5248 (2022).
- X. Cheng, J. Wang, Y. Liao, C. Li, and Z. Wei, "Enhanced conductivity of anion-exchange membrane by incorporation of quaternized cellulose nanocrystal", ACS Appl. Mater. Interfaces, 10, 23774 (2018).
- G. Das, B. J. Park, J. Kim, D. Kang, and H. H. Yoon, "Quaternized cellulose and graphene oxide crosslinked polyphenylene oxide based anion exchange membrane", Sci. Rep., 9, 9572 (2019).
- M. Mandal, "Recent advancement on anion exchange membranes for fuel cell and water electrolysis", ChemElectroChem, 8, 36 (2021).
- W. Tang, T. Mu, X. Che, J. Dong, and J. Yang, "Highly selective anion exchange membrane based on quaternized poly(triphenyl piperidine) for the vanadium redox flow battery", ACS Sustain. Chem. Eng., 9, 14297 (2021).
- R. Vinodh and D. Sangeetha, "Comparative study of composite membranes from nano-matal-oxide-incorporated polymer electrolytes for direct methanol alkaline membrane fuel cells", J. Appl. Polym. Sci., 128, 1930 (2013).
- Z. Kassab, I. Kassem, H. Hannache, R. Bouhfid, A. E. K. Qaiss, and M. El Achaby, "Tomato plant residue as new renewable source for cellulose production: extraction of cellulose nanocrystals with different surface functionalities", Cellulose, 27, 4287 (2020).
- J. S. Olsson, T. H. Pham, and P. Jannasch, "Poly(arylene piperidinium) hydroxide ion exchange membranes: synthesis, alkaline stability, and conductivity", Adv. Funct. Mater., 28, 1702758 (2018).
- S. A. Ross and G. Lowe, "Downfield displacement of the NMR signal of water in deuterated dimethylsulfoxide by the addition of deuterated trifluoroacetic acid", Tetrahedron Lett., 41, 3225 (2000).
- A. D. de Oliveira and C. A. G. Beatrice, "Polymer nanocomposites with different types of nanofiller", Nanocomposites - Recent Evolutions, p. 103, Intech Open, London, United Kingdom (2018).
- M. I. Khan, A. N. Mondal, B. Tong, C. Jiang, K. Emmanuel, Z. Yang, L. Wu, and T. Xu, "Development of BPPO-based anion exchange membranes for electrodialysis desalination applications", Desalination, 391, 61 (2016).
- J. Zheng, J. Wang, S. Zhang, T. Yuan, and H. Yang, "Synthesis of novel cardo poly(arylene ether sulfone)s with bulky and rigid side chains for direct methanol fuel cells", J. Power Sources, 245, 1005 (2014).
- L. Zhu, X. Yu, X. Peng, T. J. Zimudzi, N. Saikia, M.T. Kwasny, S. Song, D. I. Kushner, Z. Fu, G. N. Tew, W. E. Mustain, M. A. Yandrasits, and M. A. Hickner, "Poly(olefin)-based anion exchange membranes prepared using ziegler-natta polymerization", Macromolecules, 52, 4030 (2019).
- M. Zeng, X. He, J. Wen, G. Zhang, H. Zhang, H. Feng, Y. Qian, and M. Li, "N-Methylquinuclidinium-based anion exchange membrane with ultrahigh alkaline stability", Adv. Mater., 35, 2306675 (2023).
- Y. Ma, C. Hu, G. Yi, Z. Jiang, X. Su, Q. Liu, J. Y. Lee, S. Y. Lee, Y. M. Lee, and Q. Zhang, "Durable multiblock poly(biphenyl alkylene) anion exchange membranes with microphase separation for hydrogen energy conversion", Angew. Chem. Int. Ed., 62, e202311509 (2023).