Fabrication of mesoporous graphene electrodes with enhanced capacitive deionization

Electrochimica Acta

Volumn 182, Issue , 2015, Pages 183-191

  Gu, Xiaoyu ^a   Hu, Meng ^a   Du, Zhengshan ^a   Huang, Jian ^a   Wang, Chaoyang ^a  

^a SOUTH CHINA UNIVERSITY OF TECHNOLOGY   (China)

Author keywords

Capacitive deionization; Graphene; Mesoporous; Site localized etching

Indexed keywords

ELECTRODES; ETCHING; GRAPHENE; GRAPHITE ELECTRODES; MESOPOROUS MATERIALS; NANOPARTICLES;

CAPACITIVE DEIONIZATION; ELECTROCHEMICAL CAPACITIES; GRAPHENE ELECTRODES; LOCALIZED ETCHING; MESOPOROUS; REDUCED GRAPHENE OXIDES; SPECIFIC CAPACITIES; TEXTURAL PROPERTIES;

ELECTROCHEMICAL ELECTRODES;

EID: 84942238124     PISSN: 00134686     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.electacta.2015.09.076     Document Type: Article

References (63)

1. Y. Liu, L.K. Pan, T.Q. Chen, X.T. Xu, T. Lu, Z. Sun, and D.H.C. Chua Porous carbon spheres via microwave-assisted synthesis for capacitive deionization Electrochim. Acta 151 2015 489 496
2. Y. Oren Capacitive deionization (CDI) for desalination and water treatment-past, present and future (a review) Desalination 228 2008 10 29
3. L.C. Han, K.G. Karthikeyan, M.A. Anderson, J.J. Wouters, and K.B. Gregory Mechanistic insights into the use of oxide nanoparticles coated asymmetric electrodes for capacitive deionization Electrochim. Acta 90 2013 573 581
4. M. Haro, G. Rasines, C. Macias, and C.O. Ania Stability of a carbon gel electrode when used for the electro-assisted removal of ions from brackish water Carbon 49 2011 3723 3730
5. G. Rasines, P. Lavela, C. Macías, M.C. Zafra, J.L. Tirado, J.B. Parra, and C.O. Ania N-doped monolithic carbon aerogel electrodes with optimized features for the electrosorption of ions Carbon 83 2015 262 274
6. X.R. Wen, D.S. Zhang, L.Y. Shi, T.T. Yan, H. Wang, and J.P. Zhang Three-dimensional hierarchical porous carbon with a bimodal pore arrangement for capacitive deionization J. Mater. Chem. 22 2012 23835 23844
7. H.B. Li, L.K. Pan, C.Y. Nie, Y. Liu, and Z. Sun Reduced graphene oxide and activated carbon composites for capacitive deionization J. Mater. Chem. 22 2012 15556
8. K.Y. Shi, M. Ren, and I. Zhitomirsky Activated carbon-coated carbon nanotubes for energy storage in supercapacitors and capacitive water purification ACS Sustainable Chem. Eng. 2 2014 1289 1298
9. Y. Liu, L. Pan, X. Xu, T. Lu, Z. Sun, and D.H.C. Chua Enhanced desalination efficiency in modified membrane capacitive deionization by introducing ion-exchange polymers in carbon nanotubes electrodes Electrochim. Acta 130 2014 619 624
10. D.S. Zhang, T.T. Yan, L.Y. Shi, Z. Peng, X.R. Wen, and J.P. Zhang Enhanced capacitive deionization performance of graphene/carbon nanotube composites J. Mater. Chem. 22 2012 14696 14704
11. Z. Peng, D.S. Zhang, L.Y. Shi, T.T. Yan, S. Yuan, H.R. Li, R.H. Gao, and J.H. Fang Comparative electroadsorption study of mesoporous carbon electrodes with various pore structures J. Phys. Chem. C 115 2011 17068 17076
12. C. Tsouris, R. Mayes, J. Kiggans, K. Sharma, S. Yiacoumi, D. DePaoli, and S. Dai Mesoporous carbon for capacitive deionization of saline water Environ. Sci. Technol. 45 2011 10243 10249
13. D.S. Zhang, X.R. Wen, L.Y. Shi, T.T. Yan, and J.P. Zhang Enhanced capacitive deionization of graphene/mesoporous carbon composites Nanoscale 4 2012 5440 5446
14. H.B. Li, Y. Gao, L.K. Pan, Y.P. Zhang, Y.W. Chen, and Z. Sun Electrosorptive desalination by carbon nanotubes and nanofibres electrodes and ion-exchange membranes Water Res. 42 2008 4923 4928
15. K.Y. Shi, and I. Zhitomirsky Supercapacitor devices for energy storage and capacitive dye removal from aqueous solutions RSC Adv. 5 2015 320 327
16. Y.K. Zhan, C.Y. Nie, H.B. Li, L.K. Pan, and Z. Sun Enhancement of electrosorption capacity of activated carbon fibers by grafting with carbon nanofibers Electrochim. Acta 56 2011 3164 3169
17. H. Wang, D.S. Zhang, T.T. Yan, X.R. Wen, J.P. Zhang, L.Y. Shi, and Q.D. Zhong Three-dimensional macroporous graphene architectures as high performance electrodes for capacitive deionization J. Mater. Chem. A 1 2013 11778 11789
18. M. Lu, J.Y. Liu, S.P. Wang, and J. Cheng Preparation of sulfonated graphene/activated carbon composite electrode for asymmetric capacitive deionization Chem. J. Chinese U. 35 2014 1546 1552
19. Z.H. Ni, T. Yu, Y.H. Lu, Y.Y. Wang, Y.P. Feng, and Z.X. Shen Uniaxial strain on graphene: Raman spectroscopy study and band-gap opening ACS nano 2 2008 2301 2305
20. Y. Yang, L.L. Ren, C. Zhang, S. Huang, and T.X. Liu Facile fabrication of functionalized graphene sheets (FGS)/ZnO nanocomposites with photocatalytic property ACS Appl. Mater. Inter. 3 2011 2779 2785
21. H. Bi, S.R. Sun, F.Q. Huang, X.M. Xie, and M.H. Jiang Direct growth of few-layer graphene films on SiO2 substrates and their photovoltaic applications J. Mater. Chem. 22 2012 411 416
22. M.K. Liu, W.W. Tjiu, J.S. Pan, C. Zhang, W. Gao, and T.X. Liu One-step synthesis of graphene nanoribbon-MnO2 hybrids and their all-solid-state asymmetric supercapacitors Nanoscale 6 2014 4233 4242
23. X.T. Xu, L.K. Pan, Y. Liu, T. Lu, Z. Sun, and D.H.C. Chua Facile synthesis of novel graphene sponge for high performance capacitive deionization Sci. Rep. 5 2015 8458
24. Z.Y. Yang, L.J. Jin, G.Q. Lu, Q.Q. Xiao, Y.X. Zhang, L. Jing, X.X. Zhang, Y.M. Yan, and K.N. Sun Sponge-templated preparation of high surface area graphene with ultrahigh capacitive deionization performance Adv. Funct. Mater. 24 2014 3917 3925
25. C.J. Yan, Y.W. Kanaththage, R. Short, C.T. Gibson, and L. Zou Graphene/Polyaniline nanocomposite as electrode material for membrane capacitive deionization Desalination 344 2014 274 279
26. B.P. Jia, and L.D. Zou Functionalized graphene as electrode material for capacitive deionization Sci. Adv. Mater. 5 2013 1111 1116
27. H. Wang, D.S. Zhang, T.T. Yan, X.R. Wen, L.Y. Shi, and J.P. Zhang Graphene prepared via a novel pyridine-thermal strategy for capacitive deionization J. Mater. Chem. 22 2012 23745 23748
28. H.J. Liu, J. Wang, C.X. Wang, and Y.Y. Xia Ordered hierarchical mesoporous/microporous carbon derived from mesoporous titanium-carbide/carbon composites and its electrochemical performance in supercapacitor Adv. Energy Mater. 1 2011 1101 1108
29. X.Y. Gu, Y. Yang, Y. Hu, M. Hu, J. Huang, and C.Y. Wang Nitrogen-doped graphene composites as efficient electrodes with enhanced capacitive deionization performance RSC Adv. 4 2014 63189 63199
30. Z. Peng, D.S. Zhang, T.T. Yan, J.P. Zhang, and L.Y. Shi Three-dimensional micro/mesoporous carbon composites with carbon nanotube networks for capacitive deionization Appl. Surf. Sci. 282 2013 965 973
31. F. Federspiel, G. Froehlicher, M. Nasilowski, S. Pedetti, A. Mahmood, B. Doudin, S. Park, J.O. Lee, D. Halley, B. Dubertret, P. Gilliot, and S. Berciaud Distance dependence of the energy transfer rate from a single semiconductor nanostructure to graphene Nano letters 15 2015 1252 1258
32. M. Yu, Y. Huang, C. Li, Y. Zeng, W. Wang, Y. Li, P. Fang, X. Lu, and Y. Tong Building Three-Dimensional Graphene Frameworks for Energy Storage and Catalysis Adv. Funct. Mater. 25 2015 324 330
33. K.X. Li, T. Chen, L.S. Yan, Y.H. Dai, Z.M. Huang, J.J. Xiong, D.Y. Song, Y. Lv, and Z.X. Zeng Design of graphene and silica co-doped titania composites with ordered mesostructure and their simulated sunlight photocatalytic performance towards atrazine degradation Colloid. Surface A 422 2013 90 99
34. H. Wang, L.Y. Shi, T.T. Yan, J.P. Zhang, Q.D. Zhong, and D.S. Zhang Design of graphene-coated hollow mesoporous carbon spheres as high performance electrodes for capacitive deionization J. Mater. Chem. A 2 2014 4739 4750
35. J. Zhang, J. Wang, J. Yang, Y. Wang, and M.B. Chan-Park Three-dimensional macroporous graphene foam filled with mesoporous polyaniline network for high areal capacitance ACS Sustainable Chem. Eng. 2 2014 2291 2296
36. J. Yan, Z.J. Fan, T. Wei, W.Z. Qian, M.L. Zhang, and F. Wei Fast and reversible surface redox reaction of graphene-MnO2 composites as supercapacitor electrodes Carbon 48 2010 3825 3833
37. X.Y. Gu, Y. Ning, Y. Yang, and C.Y. Wang One-step synthesis of porous graphene-based hydrogels containing oil droplets for drug delivery RSC Adv. 4 2014 3211 3218
38. H.P. Cong, X.C. Ren, P. Wang, and S.H. Yu Macroscopic multifunctional graphene-based hydrogels and aerogels by a metal ion induced self-assembly process ACS Nano 6 2012 2693 2703
39. Y. Zhao, C.G. Hu, L. Song, L.X. Wang, G.Q. Shi, L.M. Dai, and L.T. Qu Functional graphene nanomesh foam Energy Environ. Sci. 7 2014 1913 1918
40. X.Y. Gu, Y. Yang, Y. Hu, M. Hu, J. Huang, and C.Y. Wang Facile fabrication of graphene-polypyrrole-Mn composites as high-performance electrodes for capacitive deionization J. Mater. Chem. A 3 2015 5866 5874
41. B.P. Jia, and L. Zou Graphene nanosheets reduced by a multi-step process as high-performance electrode material for capacitive deionisation Carbon 50 2012 2315 2321
42. Y. Wimalasiri, M. Mossad, and L. Zou Thermodynamics and kinetics of adsorption of ammonium ions by graphene laminate electrodes in capacitive deionization Desalination 357 2015 178 188
43. W. Chen, S. Li, C. Chen, and L. Yan Self-assembly and embedding of nanoparticles by in situ reduced graphene for preparation of a 3D graphene/nanoparticle aerogel Adv Mater 23 2011 5679 5683
44. F. Zhang, F. Xiao, Z.H. Dong, and W. Shi Synthesis of polypyrrole wrapped graphene hydrogels composites as supercapacitor electrodes Electrochim. Acta 114 2013 125 132
45. X.R. Wen, D.S. Zhang, T.T. Yan, J.P. Zhang, and L.Y. Shi Three-dimensional graphene-based hierarchically porous carbon composites prepared by a dual-template strategy for capacitive deionization J. Mater. Chem. A 1 2013 12334 12344
46. L. Kou, and C. Gao Bioinspired design and macroscopic assembly of poly(vinyl alcohol)-coated graphene into kilometers-long fibers Nanoscale 5 2013 4370 4378
47. Z.S. Wu, S.B. Yang, Y. Sun, K. Parvez, X.L. Feng, and K. Mullen 3D nitrogen-doped graphene aerogel-supported Fe3O4 nanoparticles as efficient electrocatalysts for the oxygen reduction reaction J. Am. Chem. Soc. 134 2012 9082 9085
48. G.M. Zhou, D.W. Wang, F. Li, L.L. Zhang, N. Li, Z.S. Wu, L. Wen, G.Q. Lu, and H.M. Cheng Graphene-wrapped Fe3O4 anode material with improved reversible capacity and cyclic stability for lithium ion batteries Chem. Mater. 22 2010 5306 5313
49. H.K. He, and C. Gao Supraparamagnetic, conductive, and processable multifunctional graphene nanosheets coated with high-density Fe3O4 nanoparticles ACS Appl. Mater. Inter. 2 2010 3201 3210
50. J. Guo, R.Y. Wang, W.W. Tjiu, J.S. Pan, and T.X. Liu Synthesis of Fe nanoparticles@graphene composites for environmental applications J. Hazard. Mater. 225-226 2012 63 73
51. W. Yao, T. Ni, S.J. Chen, H. Li, and Y. Lu Graphene/Fe3O4@polypyrrole nanocomposites as a synergistic adsorbent for Cr(VI) ion removal Compos. Sci. Technol. 99 2014 15 22
52. Q. Dong, G. Wang, T.T. Wu, S.P. Peng, and J.S. Qiu Enhancing capacitive deionization performance of electrospun activated carbon nanofibers by coupling with carbon nanotubes J. Colloid. Interface Sci. 446 2015 373 378
53. H. Lei, T.T. Yan, H. Wang, L.Y. Shi, J.P. Zhang, and D.S. Zhang Graphene-like carbon nanosheets prepared by a Fe-catalyzed glucose-blowing method for capacitive deionization J. Mater. Chem. A 3 2015 5934 5941
54. M.C. Zafra, P. Lavela, G. Rasines, C. Macías, J.L. Tirado, and C.O. Ania A novel method for metal oxide deposition on carbon aerogels with potential application in capacitive deionization of saline water Electrochim. Acta 135 2014 208 216
55. K.G. Lee, J.M. Jeong, S.J. Lee, B. Yeom, M.K. Lee, and B.G. Choi Sonochemical-assisted synthesis of 3D graphene/nanoparticle foams and their application in supercapacitor Ultrason. Sonochem. 22 2015 422 428
56. H.B. Li, F. Zaviska, S. Liang, J. Li, L.J. He, and H.Y. Yang A high charge efficiency electrode by self-assembling sulphonated reduced graphene oxide onto carbon fibre: towards enhanced capacitive deionization J. Mater. Chem. A 2 2014 3484 3491
57. F.A. AlMarzooqi, A.A. Al Ghaferi, I. Saadat, and N. Hilal Application of Capacitive Deionisation in water desalination: A review Desalination 342 2014 3 15
58. G. Wang, B.Q. Qian, Q. Dong, J.Y. Yang, Z.B. Zhao, and J.S. Qiu Highly mesoporous activated carbon electrode for capacitive deionization Sep. Purif. Technol. 103 2013 216 221
59. J.B. Lee, K.K. Park, H.M. Eum, and C.W. Lee Desalination of a thermal power plant wastewater by membrane capacitive deionization Desalination 196 2006 125 134
60. S.-i. Jeon, H.-r. Park, J.-g. Yeo, S. Yang, C.H. Cho, M.H. Han, and D.K. Kim Desalination via a new membrane capacitive deionization process utilizing flow-electrodes Energy Environ. Sci. 6 2013 1471 1475
61. H.B. Li, S. Liang, J. Li, and L.J. He The capacitive deionization behaviour of a carbon nanotube and reduced graphene oxide composite J. Mater. Chem. A 1 2013 6335 6341
62. X.Y. Gu, Y. Yang, Y. Hu, M. Hu, and C.Y. Wang Fabrication of graphene-based xerogels for removal of heavy metal ions and capacitive deionization ACS Sustainable Chem. Eng. 3 2015 1056 1065
63. H.B. Li, T. Lu, L.K. Pan, Y.P. Zhang, and Z. Sun Electrosorption behavior of graphene in NaCl solutions J. Mater. Chem. 19 2009 6773 6779