Enhanced capacitance of a nitrogen-containing carbon-based nanocomposite via noncovalent functionalization method

Nur Izzatie Hannah Razman; Salasiah Endud; Zainab Ramli; Hendrik Oktendy Lintang; Izan Izwan Misnon; Hanapi Mat

Journal of Industrial and Engineering Chemistry, Vol.31, 343-351, November, 2015

DOI10.1016/j.jiec.2015.07.008 Export Citation

Enhanced capacitance of a nitrogen-containing carbon-based nanocomposite via noncovalent functionalization method

Nur Izzatie Hannah Razman, Salasiah Endud^†, Zainab Ramli, Hendrik Oktendy Lintang¹, Izan Izwan Misnon², and Hanapi Mat³

Department of Chemistry, Faculty of Science, Universiti Teknologi Malaysia, 81310 UTM Skudai, Johor, Malaysia
¹Ibnu Sina Institute for Fundamental Science Studies, Universiti Teknologi Malaysia, 81310 UTM Skudai, Johor, Malaysia
²Nanostructured Renewable Energy Materials Laboratory, Faculty of Industrial Sciences & Technology, Universiti Malaysia Pahang, 26300 Kuantan, Pahang, Malaysia
³Advanced Materials and Process Engineering Laboratory, Faculty of Chemical Engineering, Universiti Teknologi Malaysia, 81310 UTM Skudai, Johor, Malaysia

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Ordered carbon (OC) with large surface area was prepared via replication by using Santa Barbara Amorphous-15 as a template and sucrose as a carbon precursor. The prepared OC was then noncovalently functionalized with Basic Red 2 dye precursor (BR2) to obtain OC.BR2, a nitrogen-containing carbon-based nanocomposite with enhanced electrical properties. The functionalization was explained through adsorption isotherm, kinetic, and thermodynamic studies performed under variable conditions. The electrochemical performance test results demonstrated that the nanocomposite presents enhanced capacitance (48.4%) compared with the original OC, with maximum specific capacitance of 227 F g-1 at 0.5 A g-1 in 1 M KOH electrolyte.

Keywords:Basic dye;Capacitance;Functionalization;Ordered carbon;SBA-15

[References]

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[2] Matsui T, Tanaka S, Miyake Y, Adv. Powder Technol., 24(4), 737 (2013)

[3] Zhang D, Hao Y, Zheng L, Ma Y, Feng H, Luo H, J. Mater. Chem. A, 1, 7584 (2013)

[4] Wu XH, Hong XT, Luo ZP, Hui KS, Chen HY, Wu JW, Hui KN, Li LS, Nan JM, Zhang QY, Electrochim. Acta, 89, 400 (2013)

[5] Zhao X, Zhang Q, Zhang B, Chen CM, Xu J, Wang A, Su DS, Zhang T, RCS Adv., 3, 3578 (2013)

[6] Saini VK, Andrade M, Pinto ML, Carvalho AP, Pires J, Sep. Purif. Technol., 75(3), 366 (2010)

[7] Peng X, Fu D, Desalin. Water Treat., 54, 255 (2015)

[8] Lang JW, Yan XB, Yuan XY, Yang J, Xue QJ, J. Power Sources, 196(23), 10472 (2011)

[9] Chen H, Sun F, Wang J, Li W, Qiao W, Ling L, Long D, J. Phys. Chem. C, 117, 8318 (2013)

[10] Liu H, Gao J, Xue MQ, Zhu N, Zhang MN, Cao TB, Langmuir, 25(20), 12006 (2009)

[11] Koh M, Nakajima T, Carbon, 38, 1947 (2000)

[12] Hou PX, Orikasa H, Yamazaki T, Matsuoka K, Tomita A, Setoyama N, Fukushima Y, Kyotani T, Chem. Mater., 17, 5187 (2005)

[13] Gierszal KP, Jaroniec M, Kim TW, Kim J, Ryoo R, New J. Chem., 32, 981 (2008)

[14] Vinu A, Srinivasu P, Takahashi M, Mori T, Balasubramanian VV, Ariga K, Microporous Mesoporous Mater., 100, 20 (2007)

[15] Ryoo R, Joo SH, Kruk M, Jaroniec M, Adv. Mater., 13(9), 677 (2001)

[16] Hartmann M, Vinu A, Chandrasekar G, Chem. Mater., 17, 829 (2005)

[17] Nur H, Guan LC, Endud S, Hamdan H, Mater. Lett., 58, 1791 (2004)

[18] Endud S, Wong KL, Microporous Mesoporous Mater., 101, 256 (2007)

[19] Atun G, Hisarli G, Kurtoglu AE, Ayar N, J. Hazard. Mater., 187(1-3), 562 (2011)

[20] Zhao D, Huo Q, Feng J, Chmelka BF, Stucky GD, J. Am. Chem. Soc., 120(24), 6024 (1998)

[21] Ryoo R, Joo SH, Jun S, J. Phys. Chem. B, 103(37), 7743 (1999)

[22] Sing KSW, Everett DH, Haul RAW, Moscou L, Pierotti RA, Rouquerol J, Siemieniewska T, Pure Appl. Chem., 57, 603 (1985)

[23] Asouhidou DD, Triantafyllidis KS, Lazaridis NK, Matis KA, Kim SS, Pinnavaia TJ, Microporous Mesoporous Mater., 117, 257 (2009)

[24] Ignat M, Popovici E, Rev. Roum. Chim., 56, 947 (2011)

[25] Fallah A, Kordestani D, Alizadeh A, Endud S, Adv. Mater. Res., 622-623, 757 (2013)

[26] Figueiredo JL, Pereira MFR, Freitas MMA, Orfao JJM, Carbon, 37, 1379 (1999)

[27] Zhao NQ, Wei N, Li JJ, Qiao ZJ, Cui J, He F, Chem. Eng. J., 115(1-2), 133 (2005)

[28] Xiao Y, Cao M, Ren L, Hu C, Nanoscale, 4, 7469 (2012)

[29] Chowdhury S, Mishra R, Kushwaha P, Saha P, Asia-Pac. J. Chem. Eng., 7, 236 (2012)

[30] Karim AH, Jalil AA, Triwahyono S, Sidik SM, Kamarudin NHN, Jusoh R, Jusoh NWC, Hameed BH, J. Colloid Interface Sci., 386, 307 (2012)

[31] Langmuir I, J. Am. Chem. Soc., 38, 2221 (1916)

[32] Weber TW, Chakkravorti RK, AIChE J., 20, 228 (1974)

[33] Desta MB, J. Thermodyn., 2013, 1 (2013)

[34] Langergren S, Svenska BK, Veternskapsakad Handl., 24, 1 (1898)

[35] Ho YS, McKay G, Water Res., 34, 735 (2000)

[36] Kumar KV, J. Hazard. Mater., 142(1-2), 564 (2007)

[37] Ghaedi M, Pakniat M, Mahmoudi Z, Hajati S, Sahraei R, Daneshfar A, Spectroc. Acta Pt. A-Molec. Biomolec. Spectr., 123, 402 (2014)

[38] Liu FL, Wang JH, Li LY, Shao Y, Xu ZY, Zheng SR, J. Chem. Eng. Data, 54(11), 3043 (2009)

[39] Mohammadi N, Khani H, Gupta VK, Amereh E, Agarwal S, J. Colloid Interface Sci., 362(2), 457 (2011)

[40] Li H, Xi H, Zhu S, Wen Z, Wang R, Microporous Mesoporous Mater., 96, 357 (2006)

[41] Ma C, Shi J, Song Y, Zhang D, Zhai X, Zhong M, Guo Q, Liu L, Int. J. Electrochem. Sci., 7, 7587 (2012)

[42] Zhai X, Liu J, Li P, Zhong M, Ma C, Wang H, Guo Q, Song Y, Zhi L, Int. J. Electrochem. Sci., 7, 7304 (2012)

[43] Liu X, Wang Y, Zhan L, Qiao W, Liang X, Ling L, J. Solid State Chem., 15, 413 (2011)

[44] Chmiola J, Yushin G, Dash R, Gogotsi Y, J. Power Sources, 158(1), 765 (2006)

[45] Lufrano F, Staiti P, Energy Fuels, 24, 3313 (2010)

[46] Lee HM, Kim HG, Kang SJ, Park SJ, An KH, Kim BJ, J. Ind. Eng. Chem., 21, 736 (2015)

[47] Luo H, Zhang F, Zhao X, Sun Y, Du K, Feng H, J. Mater. Sci. -Mater. Electron., 25, 538 (2014)