Porous carbon materials are of interest in many applications because of their high surface area and physicochemical properties. For particular application, the surface of porous carbon material usually needs to be modified or functionalized according to a specific requirement. In this review, methods of synthesis of porous carbon material core shell structure, methods of functionalizing porous carbon material through direct incorporation of heteroatom in carbon synthesis, halogenation, sulfonation, surface oxidation, grafting are examined. The method of characterizing_x000D_ the functionalized carbon material (bulk, surface, internal and external) and its application in the field of catalysis and energy storage (Li-ion batteries, capacitors/supercapacitors), are also subjects of focus.

Porous Carbon Core Shell Structure Template Synthesis Surface Modification Energy Storage Catalysis

Yehaskel A, Activated carbon manufacture and regeneration, New Jersey, Noyes Data Corporation, 51 (1978)
Schipco ML, Kunznetsov BN, Fuel., 74, 751 (1995)
Gilbert MT, Knox JH, Kaur B, Chromatographia., 16, 138 (1982)
Ryoo R, Joo SH, Jun S, J. Phys. Chem. B, 103(37), 7743 (1999)
Zhou L, Li H, Yu C, Zhou X, Tang J, Meng Y, Xia Y, Zhao D, Carbon., 44, 1601 (2006)
Yang CM, Weidenthaler C, Spliethoff B, Mayanna M, Schueth D, Chem. Mater., 17, 355 (2005)
Kawashima D, Aihara T, Kobayashi Y, Kyotani T, Tomita A, Chem. Mater., 12, 3397 (2000)
Titiric MM, Antonietti M, Baccile N, Green Chem., 10, 1204 (2008)
Buchel G, Unger KK, Matsumoto A, Tsutsumi K, Adv. Mater., 10(13), 1036 (1998)
Yoon SB, Sohn K, Kim JY, Shin CH, Yu JS, Hyeon T, Adv. Mater., 14(1), 19 (2002)
Yu JS, Yoon SB, Lee YJ, Yoon KB, J. Phys. Chem. B., 109, 7040 (2005)
Caruso F, Caruso RA, Mohwald H, Science, 282(5391), 1111 (1998)
Hampsey JE, Hu Q, Wu Z, Pang J, Rice L, Lu Y, Carbon., 43, 2977 (2005)
Sun XM, Li YD, Angew. Chem. Int. Ed., 43, 597 (2004)
Iijima S, J. Cryst. Growth., 50, 675 (1980)
Ugarte D, Nature., 359, 707 (1992)
Zheng J, Ekstrom TC, Gordeev SK, Jacob M, J. Mater.Chem., 10, 1039 (2000)
He C, Zhao N, Du X, Shi C, Ding J, Li J, Li Y, Script. Mater., 54, 689 (2006)
Shin YS, Fryxell G, Um WY, Parker K, Mattigod SV, Skaggs R, Adv. Funct. Mater., 17(15), 2897 (2007)
Kawabuchi Y, Sotowa C, Kishino M, Kawano S, Whitehurst DD, Mochida I, Langmuir, 13(8), 2314 (1997)
Yang CM, El-Merraoui M, Seki H, Kaneko K, Langmuir, 17(3), 675 (2001)
Yang ZX, Xia YD, Sun XZ, Mokaya R, J. Phys. Chem. B, 110(37), 18424 (2006)
Haley MM, Chem. Mater., 20, 981 (2008)
Vinu A, Ariga K, Mori T, Nakanishi T, Hishita S, Golberg D, Bando Y, Adv. Mater., 17(13), 1648 (2005)
Li W, Chen D, Li Z, Shi Y, Wan Y, Wang G, Jiang Z, Zhao D, Carbon., 45, 1757 (2007)
Rideal EK, Wright WM, J. Chem. Soc., London, 127, 1347 (1925)
Chen WF, Cannon FS, Mendez JR, Carbon., 573 (2005)
Stohr B, Boehm HP, Schlogl R, Carbon., 29, 707 (1991)
Budarin VL, Clark JH, Luque R, Macquarrie DJ, Chem. Commun., 6, 634 (2007)
Wang X, Liu R, Chen Z, Yan Y, Bozhilov KN, Feng P, Chem. Mater., 19, 2395 (2007)
Toda M, Takagaki A, Okamura M, Hayashi S, Domen K, Hara M, Nature., 438, 178 (2005)
Li ZJ, Del Cul GD, Yan WF, Liang CD, Dai S, J. Am. Chem. Soc., 126(40), 12782 (2004)
Wang L, Zhao Y, Lin K, Zhao X, Shan Z, Di Y, Sun Z, Cao X, Zou Y, Jiang D, Jiang L, Xiao FS, Carbon., 44, 1336 (2006)
Boehm HP, Carbon., 32, 759 (1994)
Economy J, Foster K, Andreopoulos A, Jung H, Chem. Technol., 22, 597 (1992)
Pittman CU, Jiang W, He GR, Gardner SD, Carbon., 36, 25 (1998)
Hu CC, Wang CC, J. Power Sources, 125(2), 299 (2004)
Li ZJ, Yan WF, Dai S, Langmuir, 21(25), 11999 (2005)
Radovic LR, RodriguezReinoso F, Chem. Phys. Carbon, 25, 243 (1997)
Pradhan BK, Sandle NK, Carbon., 37, 1323 (1999)
Bazula PA, Lu AH, Nitz JJ, Schueth F, Micropor. Mesopor. Mater., 108, 266 (2008)
Vinke P, Eijk MV, Verbree M, Voskamp AF, Van Bekkum H, Carbon., 32, 675 (1994)
Jun S, Choi M, Ryu S, Lee HY, Ryoo R, Stud. Surf. Sci. Catal., 146, 37 (2003)
Chen X, Farber M, Gao Y, Kulaots I, Suuberg EM, Hurt RH, Carbon., 41, 1489 (2003)
Valdes H, Sanchez-Polo M, Rivera-Utrilla J, Zaror CA, Langmuir, 18(6), 2111 (2002)
Radovic LR, Silva IF, Ume JI, Menendez JA, Leon C, Scaroni A, Carbon., 35, 1339 (1997)
Abdi SHR, Kim YJ, Park YK, Lee CW, Chem. Lett., 36(10), 1202 (2007)
Fang BZ, Binder L, J. Phys. Chem. B, 110(15), 7877 (2006)
Vase KH, Holm AH, Norrman K, Pedersen SU, Daasbjerg K, Langmuir, 23(7), 3786 (2007)
Delamar M, Hitmi R, Pinson J, Saveant JM, J. Am. Chem. Soc., 114, 5883 (1992)
Wang X, Jiang DE, Dai S, Chem. Mater., 20, 4800 (2008)
Yu D, Wang Z, Ergang NS, Stein A, Stud. Surf. Sci. Catal., 165, 365 (2007)
Botto RE, Sanada Y, Adv. Chem. Series., 229, ACS, Washington DC (1993)
Meyers CJ, Shah SD, Patel SC, Sneeringer RM, Bessel CA, Dollahon NR, Leising RA, Takeuchi ES, J. Phys. Chem. B, 105(11), 2143 (2001)
Bac CG, Bernier P, Latil S, Curr. Appl. Phys., 1, 149 (2001)
Zarbin AJG, Bertholdo R, Oliveira MAFC, Carbon., 40, 2413 (2002)
Muller H, Rehak P, Jager C, Hartmann J, Meyer N, Spange S, Adv. Mater., 12(22), 1671 (2000)
Hu JZ, Solum MS, Taylor CMV, Pugmire RJ, Grant DM, Energy Fuels, 15(1), 14 (2001)
Adachi Y, Nakamizo M, Adv. Chem. Ser., 229, 269 (1993)
Leroux F, Dubois M, J. Mater. Chem., 16, 4510 (2006)
Maciel GE, Bronnimann CE, Ridenour CF, Adv. Chem. Ser., 229, 27 (1993)
Zawadzki J, Chem. Phys. Carbon., 21, 147 (1989)
Zawadzki J, Thrower PA, Dekker M, Chem. & Phys. Carbon., 21, 147 (1988)
Painter P, Starsinic M, Coleman M, Fourier Transform Infrared Spectrosc., 4, 169 (1985)
Blanco Lopez MC, Alonso M, Tascon JMD, Micropor. Mesopor. Mater., 34, 171 (2000)
Quan X, Liu XT, Bo LL, Chen S, Zhao YZ, Cui XY, Water Res., 38, 4484 (2004)
Przepiorski J, Skrodzewicz M, Morawski AW, Appl. Surf. Sci., 225(1-4), 235 (2004)
Escribano R, Sloan JJ, Siddique N, Dudev N, Vibrational Spectroscopy., 26, 179 (2001)
Shimodaira N, Masui A, J. Appl. Phys., 92, 902 (2002)
Nemanich RJ, Solin SA, Phys. Rev. B., 20, 392 (1979)
Wang Y, Alsmeyer DC, McCreery RL, Chem. Mater., 2, 557 (1990)
McCulloch DG, Prawer S, Hoffman A, Phys. Rev. B., 50, 5905 (1994)
Qu DY, Shi H, J. Power Sources, 74(1), 99 (1998)
Andrew P, Sherwood MAP, Carbon., 21, 53 (1983)
Vickers PE, Watts JF, Christian P, Mohamed MC, Carbon., 38, 675 (2000)
Zielke U, Huttinger KJ, Hoffman WP, Carbon., 34, 983 (1996)
Figueiredo JL, Pereira MFR, Freitas MMA, Orfao JJM, Carbon., 37, 1379 (1999)
Darmstadt H, Roy C, Kaliaguine S, Choi SJ, Ryoo R, Carbon., 40, 2673 (2002)
Otake Y, Jenkins RG, Carbon., 31, 109 (1993)
Xiao B, Boudou JP, Thomas KM, Langmuir, 21(8), 3400 (2005)
Boehm HP, Carbon., 40, 145 (2002)
Papirer E, Dentzer J, Li S, Donnet JB, Carbon., 29, 69 (1991)
Tamon H, Okazaki M, Carbon., 34, 741 (1996)
Papier E, Li S, Donnet J, Carbon., 25, 243 (1987)
Cameron DS, Cooper SJ, Dodgson IL, Harrison B, Jenkins JW, Catal. Today., 7, 113 (1990)
Boehm HP, High Temp-High Pressures., 22, 275 (1990)
Hillhouse HW, van Egmond JW, Tsapatsis M, Hanson JC, Larese JZ, Micropor. Mesopor. Mater., 44, 639 (2001)
Smorgonskaya E, Kyutt R, Danishevskii A, Jardin C, Meaudre R, Marty O, Gordeev S, Grechinskaya A, J. Non-Crystalline Solids., 299, 810 (2002)
Venhryn Y, Grygorchak II, Kulyk YO, Mudry SI, Shvets R, Optica Applicata., 38, 119 (2008)
Lim MH, Blanford CF, Stein A, Chem. Mater., 10, 467 (1998)
Wang Y, Nepal D, Geckeler KE, J. Mater. Chem., 15, 1049 (2005)
Rouquerol F, Rouquerol J and Sing K, Adsorption by Powders & Porous Solids, Academic, San Diego, CA (1999)
Bhambhani MR, Cutting PA, Sing KSW, Turk DH, J. Colloid Interf. Sci., 38, 109 (1972)
Kenneth J, McEnaney B, J. Colloid Interf. Sci., 95, 340 (1983)
Choma J, Gorka J, Jaroniec M, Micropor. Mesopor. Mater., 112, 573 (2008)
Ravikovitch PI, Neimark AV, Langmuir, 18(5), 1550 (2002)
Lee JJ, Han S, Kim H, Koh JH, Hyeon T, Moon SH, Catal. Today, 86(1-4), 141 (2003)
Zhou JH, He JP, Ji YJ, Dang WJ, Liu XL, Zhao GW, Zhang CX, Zhao JS, Fu QB, Hu HP, Electrochim. Acta, 52(14), 4691 (2007)
Min KI, Choi JS, Chung YM, Ahn WS, Ryoo R, Lim PK, Appl. Catal. A: Gen., 337(1), 97 (2008)
Harada T, Ikeda S, Miyazaki M, Sakata T, Mori H, Matsumura M, J. Mol. Catal. A-Chem., 268(1-2), 59 (2007)
Sipos E, Fogassy G, Tungler A, Samant PV, Figueiredo JL, J. Mol. Catal. A-Chem., 212(1-2), 245 (2004)
Hara M, Yoshida T, Takagaki A, Takata T, Kondo JN, Hayashi S, Domen K, Angew. Chem. Int. Ed., 43, 2955 (2004)
Idota Y, Kubota T, Matsufuji A, Maekawa Y, Miyasaka T, Science, 276(5317), 1395 (1997)
Noh M, Kwon Y, Lee H, Cho J, Kim Y, Kim MG, Chem. Mater., 17, 1926 (2005)
Ng SH, Wang J, Wexler D, Chew SY, Liu HK, J. Phys. Chem. C., 111, 11131 (2007)
Cakan RD, Titirici MM, Antonietti M, Maier J, Hu YS, Chem. Commun., 3759 (2008)
Tarascon JM, Armand M, Nature., 414, 359 (2001)
Han SJ, Jang BC, Kim T, Oh SM, Hyeon T, Adv. Funct. Mater., 15(11), 1845 (2005)
Wang Y, Su F, Lee JY, Zhao XS, Chem. Mater., 18, 1347 (2006)
Fan J, Wang T, Yu CZ, Tu B, Jiang ZY, Zhao DY, Adv. Mater., 16(16), 1432 (2004)
Ergang NS, Lytle JC, Lee KT, Oh SM, Smyrl WH, Stein A, Adv. Mater., 18(13), 1750 (2006)
Pan Q, Wang H, Jiang Y, J. Mater. Chem., 17, 329 (2007)
Frackowiak E, Beguin F, Carbon., 39, 937 (2001)
Hong J, Yeo IH, Paik W, J. Electrochem. Soc., 148, 156 (2001)
Hu CC, Tsou TW, J. Power Sources., 135, 179 (2003)
Winter M, Brodd RJ, Chem. Rev., 104(10), 4245 (2004)
Groenendaal BL, Jonas F, Freitag D, Pielartzik H, Reynolds JR, Adv. Mater., 12(7), 481 (2000)
Li H, Xi HA, Zhu S, Wen Z, Wang R, Adv. Mater. Mater., 96, 357 (2006)