화학공학소재연구정보센터
로그인 로그아웃 연락처 사이트맵
Journal of Industrial and Engineering Chemistry, Vol.97, 79-94, May, 2021
DOI10.1016/j.jiec.2021.02.008  Export Citation
Polyaniline-based nanocomposites for direct methanol fuel cells (DMFCs) - A Recent Review
Suba Lakshmi Madaswamy, Asma A. Alothman1, Murefah mana AL-Anazy2, Ahmad A. Ifseisi1, Khadraa N. Alqahtani1, Sendhil Kumar Natarajan3, Subramania Angaiah4, and Dhanusuraman Ragupathy
  • Nano Electrochemistry Lab (NEL), Department of Chemistry, National Institute of Technology Puducherry, Karaikal 609-609, India
  • 1Department of Chemistry, College of Science, King Saud University, Riyadh 11451, Saudi Arabia
  • 2Department of Chemistry, College of Science, Princess Nourah Bint Abdulrahman University, Riyadh 11671, Saudi Arabia
  • 3Department of Mechanical Engineering, National Institute of Technology Puducherry, Karaikal 609-609, India
  • 4Electro-Materials Research Laboratory, Centre for Nanoscience and Technology, Pondicherry University, Pondicherry 605 014, India
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This review delivers a summary of the recent advances in polyaniline based electrocatalyst for direct methanol fuel cell applications. Today’s world is urging for global energy due to the fossil fuel diminution and ecological contamination which is overthrown by the direct methanol fuel cell. Amongst the conducting polymers, polyaniline has a significant role in the direct methanol fuel cell. Due to the high conductivity, unique redox properties, high flexibility, better solubility, reasonable stability, ease synthesis, and low cost. The nanocomposite of polyaniline with other electrochemically active materials such as metallic compounds and carbonaceous materials as well as nitrogen-doped carbon materials derived from PANI based nanocomposite were in detailly discussed in this review.
Keywords:Polyaniline;nanocomposites;electrocatalytic activity;methanol oxidation;DMFC
  1. Araya SS, Liso V, Cui X, Li N, Zhu J, Sahlin SL, Jensen SH, Nielsen MP, Kaer SK, Energies, 13, 596 (2020)
  2. Feng Y, Liu H, Yang J, Sci. Adv., 3, e17005 (2017)
  3. Alias MS, Kamarudin SK, Zainoodin AM, Masdar MS, Int. J. Hydrog. Energy (2020).
  4. Karimi MB, Mohammadi F, Hooshyari K, Int. J. Hydrog. Energy, 44(54), 28919 (2019)
  5. Ramli ZA, Kamarudin SK, Nanoscale Res. Lett., 13, 410 (2018)
  6. Kamarudin SK, Achmad F, Daud WRW, Int. J. Hydrog. Energy, 34(16), 6902 (2009)
  7. Wei ZD, Chan SH, Chem., 569, 23 (2004)
  8. Munjewar SS, Thombre SB, Mallick RK, Ionics, 23, 1 (2017)
  9. Gong L, Yanag Z, Li K, Xing W, Liu C, Ge J, J. Energy. Chem., 27, 1618 (2018)
  10. Wang M, Wang X, Chen M, Yang Z, Dong C, Chinese J. Catal., 37, 1037 (2016)
  11. Kamarudin SK, Hashim N, Renew. Sust. Energ. Rev., 16, 2494 (2012)
  12. Chen CX, Gan ZY, Zhou K, Ma Z, Liu YQ, Gao YH, Electrochim. Acta, 283, 1649 (2018)
  13. Gan Z, Song N, Zhang H, Ma Z, Wang Y, Chen C, J. Electrochem. Soc., 167, 085501 (2020)
  14. Liu YQ, Song NN, Ma Z, Zhou K, Gan ZY, Gao YH, Tang S, Chen CX, Mater. Chem. Phys., 223, 548 (2019)
  15. Beaujuge PM, Reynolds JR, Chem. Rev., 110(1), 268 (2010)
  16. Shi Y, Peng L, Yu G, Nanoscale., 7, 12796 (2015)
  17. Ehsani A, Mahjani MG, Babaei F, Mostaanzadeh H, RSC Adv., 5, 30394 (2015)
  18. Basnayaka PA, Ram MK, In Conducting Polymer Hybrids, pp.165 (2017).
  19. Stejskal J, Chem. Pap.. 1 (2020).
  20. Ragupathy D, Gopalan AI, Lee KP, Microchimica Acta., 166, 303 (2009)
  21. Muthusankar E, Ponnusamy VK, Ragupathy D, Synth. Met., 254, 134 (2019)
  22. Chokkiah B, Eswaran M, Wabaidur SM, Alothman ZA, Tsai PC, Ponnusamy VK, Dhanusuraman R, Fuel, 279, 118439 (2020)
  23. Ragupathy D, Lee KP, Korean Society for Analytical Science Conference, (2008).
  24. Muthusankar E, Ragupathy D, Mater. Lett., 241, 144 (2019)
  25. Genies EM, Boyle A, Lapkowski M, Tsintavis C, Synth. Met., 36, 139 (1990)
  26. Wang H, Lin J, Shen ZX, Journal of science: Advanced materials and devices., 1, 225 (2016).
  27. Ragupathy D, Lee SC, Al-Deyab SS, Rajendran A, J. Ind. Eng. Chem., 19(4), 1082 (2013)
  28. Balaji M, Nithya P, Jegatheeswaran S, Selvam S, Sundrarajan M, Adv. Powder Technol., 29(12), 3173 (2018)
  29. Lakshmi MS, Muthusankar E, Wabaidur SM, Alothman ZA, Ponnusamy VK, Ragupathy D, Sensor Lett., 18, 5 (2020)
  30. Alex C, Bhat SA, John NS, Yelamaggad CV, Energy Mater., 11, 8098 (2019)
  31. Magu TO, Agobi AU, HITLER L, Dass PM, Journal of Chem. Rev, 1. 19 (2019).
  32. Ghosh S, Maiyalagan T, Basu RN, Nanoscale., 8, 6921 (2016)
  33. MacDiarmid AG, Yang LS, Huang WS, Humphrey BD, Synth. Met., 18, 393 (1987)
  34. Shi Y, Zhou X, Zhang J, Bruck AM, Bond AC, Marschilok AC, Takeuchi KJ, Takeuchi ES, Yu G, Nano Lett., 17, 1906 (2017)
  35. Jing P, Lu H, Yang W, Cao Y, Xu B, Cai W, Deng Y, Ionics, 26, 777 (2020)
  36. Tan J, He X, Yin F, Chen B, Liang X, Li G, Yin H, Int. J. Hydrog. Energy. (2020).
  37. Huang Z, Li L, Wang Y, Zhang C, Liu T, Compos. Commun., 8, 83 (2018)
  38. Ramadan A, Anas M, Ebrahim S, Soliman M, Abou-Aly AI, Int. J. Hydrog. Energy (2020).
  39. Liu PB, Yan J, Guang ZX, Huang Y, Li XF, Huang WH, J. Power Sources, 424, 108 (2019)
  40. Ragupathy D, Gopalan A, Lee KP, Korean Society for Analytical Science Conference, pp.220 (2009).
  41. Ragupathy D, Gopalan AI, Lee KP, Korean Society for Analytical Science Conference, pp.218 (2009).
  42. Muthusankar E, Ragupathy D, Nano-Structures & Nano-Objects. 20, 100390 (2019).
  43. Ragupathy D, Park JJ, Lee SC, Kim JC, Gomathi P, Kim MK, Lee SM, Ghim HD, Rajendran A, Lee SH, Jeon KM, Macromol. Res., 19(8), 764 (2011)
  44. Gopalan AL, Lee KP, Ragupathy D, Lee SH, Lee JW, Biomaterials, 30, 5999 (2009)
  45. Lakshmi MS, Wabaidur SM, Alothman ZA, Johan MR, Ponnusamy VK, Dhanusuraman R, Int. J. Energy Res (2020).
  46. Antony MJ, Jolly CA, Das KR, Swathy TS, Colloids Surf., 578, 123627 (2019)
  47. Santos J, Goswami S, Calero N, Cidade MT, J Intel Mat Syst Str, 30, 755 (2019)
  48. Bavatharani C, Muthusankar E, Wabaidur SM, Alothman ZA, Alsheetan KM, mana AL-Anazy M, Ragupathy D, Synth.Met., 116609 (2020).
  49. Zhang Y, Zhuan X, Su Y, Zhanf F, Feng X, J. Mater. Chem. A, 2, 7742 (2014)
  50. Jangid NK, Jadoun S, Kaur N, Eur. Polym. J., 125, 109485 (2020)
  51. Liao G, Gong Y, Yi C, Xu Z, Chin J Chem, 35, 1157 (2017)
  52. Kebiche H, Poncin-Epaillard F, Haddaoui N, Debarnot D, J. Mater. Sci., 55(14), 5782 (2020)
  53. Gilhotra C, Chander M, Conducting polyaniline polymer, InAIP Conference Proceedings 2019.
  54. Gusain M, Nagarajan R, Singh SK, Polym. Bull., 1 (2019).
  55. Banerje J, Dutta K, Kader MA, Nayak SK, Polym. Advan. Technol., 30, 1902 (2019)
  56. Kim B, Koncar V, Dufour C, J. Appl. Polym. Sci., 101(3), 1252 (2006)
  57. Inamuddin, Kashmery HA, Int. J. Hydrog. Energy, 44(39), 22173 (2019)
  58. Richter AF, Ray A, Ramanathan KV, Manohar SK, Furst GT, Opella SJ, MacDiarmid AG, Epstein AJ, Synth. Met., 29, 243 (1989)
  59. Arthisree D, Madhuri W, Int. J. Hydrog. Energy, 45(16), 9317 (2020)
  60. Chiang JC, MacDiarmid AG, Synth. Met., 13, 193 (1986)
  61. Srinivasan SS, Ratnadurai R, Niemann MU, Phani AR, Goswami DY, Stefanakos EK, Int. J. Hydrog. Energy, 35(1), 225 (2010)
  62. Wan MX, Macromol. Rapid Commun., 30(12), 963 (2009)
  63. Stejskal J, Sapurina I, Trchova M, Prog. Polym. Sci, 35, 1420 (2010)
  64. Ragupathy D, Gomathi P, Lee SC, Al-Deyab SS, Lee SH, Ghim HD, J. Ind. Eng. Chem., 18(4), 1213 (2012)
  65. Liu PB, Yan J, Guang ZX, Huang Y, Li XF, Huang WH, J. Power Sources, 424, 108 (2019)
  66. Wu CG, Bein T, Science, 2266, 1013 (1994)
  67. Lakshmi MS, Wabaidur SM, Alothman ZA, Ragupathy D, Synth. Met., 270, 116591 (2020)
  68. Huang JX, Virji S, Weiller BH, Kaner RB, J. Am. Chem. Soc., 125(2), 314 (2003)
  69. Long Y, Chen Z, Wang N, Ma Y, Zhang Z, Zhang L, Wan M, Appl. Phys. Lett., 83, 1863 (2003)
  70. Li GR, Feng ZP, Zhong JH, Wang ZL, Tong YX, Macromolecules, 43(5), 2178 (2010)
  71. Meenu PC, Datta SP, Singh SA, Dinda S, Chakraborty C, Roy S, J. Power Sources, 461, 228150 (2020)
  72. Ourari A, Zerdoumi R, Ruiz-Rosas R, Morallon E, Materials., 12, 723 (2019)
  73. Parsa A, Mirshafieyan SA, Shakeri A, Amanzadeh-Salout S, Orient. J. Chem., 32, 1823 (2016)
  74. Jin W, Huang XH, Cheng HY, Xu T, Wang F, Guo XY, Wu YP, Ying Y, Wen Y, Yang HF, Appl. Surf. Sci., 483, 489 (2019)
  75. Xu M, Qing Y, Yin Y, Ai S, Duan J, Li H, Li Y, Int. J. Electrochem. Sci., 15, 929 (2020)
  76. Kim K, Ahn H, Park MJ, ACS Appl. Mater. Inter., 9, 30278 (2017)
  77. Mondal S, Malik S, J. Power Sources, 328, 271 (2016)
  78. Yan R, Jin B, Li D, Zheng J, Li Y, Qian C, Synth. Met., 235, 110 (2018)
  79. Khouchaf A, Takky D, Chbihi ME, Benmokhtar S, J. Chem. Eng. Mater. Sci., 4, 97 (2016)
  80. Chen CX, Xu TT, Chen AK, Lu L, Gao YH, J. Electrochem. Soc., 163(10), G159 (2016)
  81. Zhang J, Nan L, Yue W, Chen X, J. Electroanal. Chem., 858, 113821 (2020)
  82. Wang YL, Li ZS, Xu SH, Xie YX, Lin S, Mater. Res. Bull., 102, 172 (2018)
  83. Eris S, Dasdelen Z, Yildiz Y, Sen F, Int. J. Hydrog. Energy, 43(3), 1337 (2018)
  84. Yang L, Tang Y, Yan D, Liu C, Luo S, ACS Appl Mater Inter., 8, 169 (2016)
  85. Eswaran M, Dhanusuraman R, Tsai PC, Ponnusamy VK, Fuel, 251, 91 (2019)
  86. Civelekoglu-Odabas M, Becerik I, Curr. Nanosci., 15, 654 (2019)
  87. Su Z, Li C, Cheng Y, Gui Q, Xiong Y, Tan Y, Jiang H, Liu X, RSC adv., 8, 33742 (2018)
  88. Yan R, Sun X, Jin B, Li D, Zheng J, Li Y, Synth. Met., 250, 146 (2019)
  89. Das S, Dutta K, Kundu PP, Bhattacharya SK, Fuel Cells., 18, 369 (2018)
  90. Kim KS, Hong Y, Kim HC, Choi SI, Hong JW, Chem. Eur. J., 25, 7185 (2019)
  91. Xu H, Wang AL, Tong YX, Li GR, ACS Catal., 6, 5198 (2016)
  92. Zhang Q, Lv JN, Hu XY, He YL, Yang HF, Kong DS, Feng YY, Int. J. Hydrog. Energy, 43(11), 5603 (2018)
  93. Soleimani-Lashkenari M, Rezaei S, Fallah J, Rostami H, Synth. Met., 235, 71 (2018)
  94. Roy S, Payra S, Challagulla S, Arora R, Roy S, Chakraborty C, ACS omega, 3, 17778 (2018)
  95. Wu TY, Chen PR, Chen HR, Kuo CW, J Taiwan Inst. Chem. E., 58, 458 (2016)
  96. Karatepe O, Yıldız Y, Pamuk H, Eris S, Dasdelen Z, Sen F, RSC adv., 6, 50851 (2016)
  97. Shah AUA, Yasmeen N, Rahman G, Mehmood M, Bilal S, Electrochim. Acta, 188, 367 (2016)
  98. Vinodh R, Rana PJ, Polym. Int., 68, 929 (2019)
  99. Khammarnia S, Akbari A, Ekrami-Kakhki MS, Saffari J, J Nanostruct, 10, 239 (2020)
  100. Lashkenari MS, Ghorbani M, Safabakhsh M, Shahrokhi B, Rezaei S, J. Appl. Electrochem.. 1 (2020).
  101. Sha AUA, Yasmeen N, Rahman G, Bilal S, Electrochim. Acta, 224, 468 (2017)
  102. Arukula R, Vinothkannan M, Kim AR, Yoo DJ, J. Alloy. Compd., 771, 477 (2019)
  103. Shi L, Wang Z, Chen X, Yang G, Liu W, Int. J. Electrochem. Sci., 14, 7104 (2019)
  104. Oskueyan G, Lakouraj MM, J. Appl. Electrochem., 8, 755 (2019)
  105. Yan R, Sun X, Zhang X, Zheng J, Jin B, Nanotechnology, 31, 135703 (2020)
  106. Sun X, Yan R, Cheng C, Jin B, ChemistrySelect, 4, 9216 (2019)
  107. Wang W, Kang YM, Li JM, Wang PD, Liu XY, Lei ZQ, Appl. Surf. Sci., 465, 979 (2019)
  108. Zhang J, Liu X, Xing A, Liu J, ACS Appl. Energy Mater., 1, 2758 (2018)
  109. Zhang LM, Wang ZB, Sui XL, Li CZ, Zhao L, Gu DM, RSC adv, 5, 39310 (2016)
  110. Zhai C, Li S, Wang J, Liu Y, RSC adv., 8, 36353 (2018)
  111. Zhang J, Chen J, Zhou F, Zeng X, Xing A, Jia B, Fan B, Wang J, Liu X, J. Electrochem Energy., 18 (2020)
  112. Ghasemi AK, Lashkenari MS, Shabanian SR, J Taiwan Inst Chem E., 91, 345 (2018)
  113. Zhang Q, Yang Z, Ling Y, Yu X, Zhang Y, Cheng H, Int. J. Hydrog. Energy, 43, 2730 (2018)
  114. Deng ZL, Yi QF, Zhang YY, Nie HD, J. Electroanal. Chem., 803, 95 (2017)
  115. Al-Enizi AM, Elzatahry AA, Abdullah AM, Vinu A, Iwai H, Al-Deyab SS, Appl. Surf. Sci., 401, 306 (2017)