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VOL. 17, NO. 1, JANUARY 2022 ISSN 1819-6608 ARPN Journal of Engineering and Applied Sciences ©2006-2022 Asian Research Publishing Network (ARPN). All rights reserved. www.arpnjournals.com [18]Juliandri, A. Nurfadhillah, Rukiah, M. Nasir and R. A. Lubis. 2019. Synthesis and characterization of sulfonated PVDF TiO2-natural zeolite nanocomposites membrane. Key Eng. Mater. 811 KEM: 147-152. [19] N. Kusumawati, P . Setiarso, M. M. Sianita, and S. Muslim. 2018. Transport properties, mechanical behavior, thermal and chemical resistance of asymmetric flat sheet membrane prepared from PSf/PVDF blended membrane on gauze supporting layer. Indones. J. Chem. 18(2): 257-264. [20] S. Shahgaldi et al. 2014. Performance enhancement of microbial fuel cell by PVDF/Nafion nanofibre composite proton exchange membrane. Fuel Process. Technol. 124: 290-295. [21]R. S. Silitonga et al. 2018. The modification of PVDF membrane via crosslinking with chitosan and glutaraldehyde as the crosslinking agent. Indones. J. Chem. 18(1): 1-6. [22]X. Liu, X. Meng, J. Wu, J. Huo, L. Cui and Q. Zhou 2015. Microstructure and properties of novel SPEEK/PVDF-g-PSSA blends for proton exchange membrane with improved compatibility. RSC Adv. 5(85): 69621-69628. [23]A. N. Rosdi, Y. L. Kang, M. Purushothaman, S. Ibrahim and S. Pichiah. 2016. Preparation and characterization of zeolite polymer composite proton exchange membrane. Desalin. Water Treat. 57(1): 13- 21. [24]H. Nagar, N. Badhrachalam, V. V. B. Rao, and S. Sridhar. 2019. A novel microbial fuel cell incorporated with polyvinylchloride/4A zeolite composite membrane for kitchen wastewater reclamation and power generation. Mater. Chem. Phys. 224(May 2018): 175-185. [25]N. Krathumkhet, K. Vongjitpimol, and T. Chuesutham. 2018. Preparation of sulfonated zeolite ZSM-5 / sulfonated polysulfone composite membranes as PEM for direct methanol fuel cell application. Solid State Ionics. 319(February): 278- 284. [26]B. Neethu, G. D. Bhowmick and M. M. Ghangrekar. 2019. A novel proton exchange membrane developed from clay and activated carbon derived from coconut shell for application in microbial fuel cell. Biochem. Eng. J. 148: 170-177. [27]C. Kosanović, B. Subotić and A. Ristić. 2002. Structural and morphological transformations of the (NH4, Na)-exchanged zeolites 4A, 13X and synthetic mordenite by thermal treatment. Croat. Chem. Acta. 75(3): 783-792. [28]R. Pertiwi, S. Tursiloadi, I. B. Adilina, K. C. Sembiring, and Y. Oaki. 2017. Nickel Supported Natural Zeolite as a Bifunctional Catalysts for Conversion of Citronella Oil Crude to Menthols. J. Kim. Terap. Indones. 18(02): 132-138. [29]K. Zhang, Z. Liu, M. Wang, X. Yan, C. Li and H. Xi. 2017. Synthesis and catalytic performance of hierarchically structured beta zeolites by a dual- functional templating approach. New J. Chem. 41(10): 3950-3956. [30]R. Vigil De La Villa, R. Fernández, O. Rodríguez, R. García, E. Villar-Cociña and M. Frías. 2013. Evolution of the pozzolanic activity of a thermally treated zeolite. J. Mater. Sci. 48(8): 3213-3224. [31]Y. Cui, Y. Zheng and W. Wang. 2018. Synthesis of 4A Zeolite from Kaolinite-type pyrite flotation tailings (KPFT). Minerals. 8(8): 338. [32] M. Thommes et al. 2015. Physisorption of gases, with special reference to the evaluation of surface area and pore size distribution (IUPAC Technical Report ). [33]X. Y. Ren, J. P. Cao, X. Y. Zhao, Z. Yang, S. N. Liu and X. Y. Wei. 2018. Enhancement of Aromatic Products from Catalytic Fast Pyrolysis of Lignite over Hierarchical HZSM-5 by Piperidine-Assisted Desilication. ACS Sustain. Chem. Eng. 6(2): 1792- 1802. [34]J. C. Groen, L. A. A. Peffer, J. A. Moulijn, and J. Pérez-Ramírez. 2005. Mechanism of hierarchical porosity development in MFI zeolites by desilication: The role of aluminium as a pore-directing agent. Chem. - A Eur. J. 11(17): 4983-4994. [35]J. C. Groen, J. C. Jansen, J. A. Moulijn and J. Pérez- Ramírez. 2004. Optimal aluminum-assisted mesoporosity development in MFI zeolites by desilication. J. Phys. Chem. B. 108(35): 13062-13065. [36]M. C. Silaghi, C. Chizallet and P. Raybaud. 2014. Challenges on molecular aspects of dealumination and desilication of zeolites. Microporous Mesoporous Mater. 191: 82-96. 65PDF Image | ZEOLITE AND ACTIVATED CARBON FOR PROTON EXCHANGE MEMBRANE FUEL CELLS
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