nach oben

Journal of Materials Science

Erschienen in:

09.07.2018 | Energy materials

The preparation of porous carbon spheres with hierarchical pore structure and the application for high-performance supercapacitors

verfasst von: Zhihong Tang, Song Jiang, Shuling Shen, Junhe Yang

Erschienen in: Journal of Materials Science | Ausgabe 19/2018

Einloggen

Aktivieren Sie unsere intelligente Suche, um passende Fachinhalte oder Patente zu finden.

search-config

KI-gestützte Suche

Aus

Abstract

Porous carbon spheres with hierarchical pore structure were prepared by an aerosol method from glucose, the formation process was proposed, and the electrochemical performance of the sample was evaluated in both KOH and TEA-BF₄/AN electrolyte. Due to the hierarchical pore structure, high specific surface area and spherical morphology, the sample demonstrated excellent electrochemical performance. The specific capacitance of the material in KOH and TEA-BF₄/AN was up to 240 and 80 F g⁻¹, respectively, and the capacity retention was about 77% when the current density increased to 10 A g⁻¹ in KOH. It was worth noting that the specific capacitance decreased little even when the mass loading increased to 10.5 mg and the current density increased to 5 A g⁻¹, which was potential for the large-scale utilization of the material as electrode.

Vorheriger Artikel Chemical state of chlorine in perovskite solar cell and its effect on the photovoltaic performance

Nächster Artikel Correction to: Structural evolution of vertically oriented graphene nanosheet templating Ni–Co hydroxide as pseudocapacitive electrode

Sie haben noch keine Lizenz? Dann Informieren Sie sich jetzt über unsere Produkte:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

über 102.000 Bücher
über 537 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Finance + Banking
Management + Führung
Marketing + Vertrieb
Maschinenbau + Werkstoffe
Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

Jetzt informieren

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

über 67.000 Bücher
über 390 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Maschinenbau + Werkstoffe

Jetzt Wissensvorsprung sichern!

Jetzt informieren

Jiang D, Wu J (2013) Microscopic insights into the electrochemical behavior of nonaqueous electrolytes in electric double-layer capacitors. J Phys Chem Lett 4(8):1260–1267CrossRef

Sun XZ, Zhang X, Liu WJ, Wang K, Li C, Li Z, Ma YW (2017) Electrochemical performances and capacity fading behaviors of activated carbon/hard carbon lithium ion capacitor. Electrochim Acta 235:158–166CrossRef

Milow B, Schwan M, Dong WP, Friedrich KA (2017) Synthesis and characterization of carbon aerogels as active material for double layer capacitors. Int Conf Multifunct Hybrid Nanomater 3:131

Thirumal V, Pandurangan A, Jayavel R, Ilangovan R (2016) Preparation and characterization of carbon nanotubes for supercapacitor applications. Synth Met 220:524–532CrossRef

Chen KY, Huang XB, Wan CY, Liu H (2015) Efficient oxygen reduction catalysts formed of cobalt phosphide nanoparticle decorated heteroatom-doped mesoporous carbon nanotubes. Chem Commun 51:7891–7894CrossRef

Tang ZH, Li XD, Han Z, Yao L, Shen SL, Yang JH (2016) Controllable crumpling of N-doped graphene induced by capillary force resistance. RSC Adv 6(90):87796–87801CrossRef

Balaji SS, Elavarasan A, Sathish M (2016) High performance supercapacitor using N-doped graphene prepared via supercritical fluid processing with an oxime nitrogen source. Electrochim Acta 200:37–45CrossRef

Dutta S, Kim J, Ide Y, Kim JH, Hossain MS, Bando Y, Yamauchi Y, Wu KCW (2017) 3D network of cellulose-based energy storage devices and related emerging applications. Mater Horiz 4(4):522–545CrossRef

Nguyen CV, Liao YT, Kang TC, Chen JE, Yoshikawa T, Nakasaka Y, Masuda T, Wu KCW (2016) A metal-free, high nitrogen-doped nanoporous graphitic carbon catalyst for an effective aerobic HMF-to-FDCA conversion. Green Chem 18(22):5957–5961CrossRef

10.

Gao J, Wang XY, Zhang YW, Liu J, Lu Q, Liu M (2016) Boron-doped ordered mesoporous carbons for the application of supercapacitors. Electrochim Acta 207:266–274CrossRef

11.

Gao J, Wang XY, Zhang YW, Liu J, Lu Q, Chen MF, Bai YS (2016) Preparation and supercapacitive performance of nanosized manganese dioxide/ordered mesoporous carbon composites. Electrochim Acta 192:234–242CrossRef

12.

Liu J, Wang XY, Lu Q, Yu RZ, Chen MF, Cai SY, Wang XY (2016) Synthesis of nitrogen and sulfur co-doped carbon derived from chromium carbide for the high performance supercapacitor. J Electrochem Soc 163(14):A2991–A2998CrossRef

13.

Lu AH, Hao GP, Sun Q, Zhang XQ, Li WC (2012) Chemical synthesis of carbon materials with intriguing nanostructure and morphology. Macromol Chem Phys 213(10–11):1107–1131CrossRef

14.

Liu SM, Cai YJ, Zhao X, Liang YR, Zheng MT, Hu H, Dong HW, Jiang SP, Liu YL, Xiao Y (2017) Sulfur-doped nanoporous carbon spheres with ultrahigh specific surface area and high electrochemical activity for supercapacitor. J Power Sour 360:373–382CrossRef

15.

Fang XL, Zang J, Wang XL, Zheng MS, Zheng NF (2014) A multiple coating route to hollow carbon spheres with foam-like shells and their applications in supercapacitor and confined catalysis. J Mater Chem A 2:6191–6197CrossRef

16.

Liu L, Xu SD, Yu Q, Wang FY, Zhu HL, Zhang RL, Liu X (2016) Nitrogen-doped hollow carbon spheres with a wrinkled surface: their one-pot carbonization synthesis and supercapacitor properties. Chem Commun 52(78):11693–11695CrossRef

17.

Zhang Q, Li L, Wang YL, Chen YJ, He F, Gai SL, Yang PP (2015) Uniform fibrous-structured hollow mesoporous carbon spheres for high-performance supercapacitor electrodes. Electrochim Acta 176:542–547CrossRef

18.

Ma C, Chen XY, Long DH, Wang JT, Qiao WM, Ling LC (2017) High-surface-area and high-nitrogen-content carbon microspheres prepared by a pre-oxidation and mild KOH activation for superior supercapacitor. Carbon 118:699–708CrossRef

19.

Wickramaratne NP, Xu JT, Wang M, Zhu L, Dai LM, Jaroniec M (2014) Nitrogen enriched porous carbon spheres: attractive materials for supercapacitor electrodes and CO₂ adsorption. Chem Mater 26(9):2820–2828CrossRef

20.

Zhang NS, Gao N, Fu CP, Liu D, Li SC, Jiang LL, Zhou HH, Kuang YF (2017) Hierarchical porous carbon spheres/graphene composite for supercapacitor with both aqueous solution and ionic liquid. Electrochim Acta 235:340–347CrossRef

21.

Falco C, Sieben JM, Brun N, Sevilla M, Mauelen TVD, Morallón E, Cazorla-Amós D (2013) Hydrothermal carbons from hemicellulose-derived aqueous hydrolysis products as electrode materials for supercapacitors. Chemsuschem 6(2):374–382CrossRef

22.

Yu XL, Lu JM, Zhan CZ, Lv R, Liang QH, Huang ZH, Shen WC, Kang FY (2015) Synthesis of activated carbon nanospheres with hierarchical porous structure for high volumetric performance supercapacitors. Electrochim Acta 182:908–916CrossRef

23.

Skrabalak SE, Suslick KS (2006) Porous carbon powders prepared by ultrasonic spray pyrolysis. J Am Chem Soc 128(39):12642–12643CrossRef

24.

Skrabalak SE, Suslick KS (2007) Carbon powders prepared by ultrasonic spray pyrolysis of substituted alkali benzoates. J Phys Chem C 111(48):17807–17811CrossRef

25.

Fortunato ME, Rostamabadi M, Suslick KS (2010) Nanostructured carbons prepared by ultrasonic spray pyrolysis. Chem Mater 238(5):1610–1612CrossRef

26.

Xu HX, Guo JR, Suslick KS (2012) Porous carbon spheres from energetic carbon precursors using ultrasonic spray pyrolysis. Adv Mater 24(45):6028–6033CrossRef

27.

Yamamoto E, Kuroda K (2016) Colloidal mesoporous silica nanoparticles. Bull Chem Soc Jpn 89(5):501–539CrossRef

28.

Chen HS, Chiang YD, Kung CW, Sakai N, Ikegami M, Yamauchi Y, Wu KCW, Miyasaka T, Ho KC (2014) Highly efficient plastic-based quasi-solid-state dye-sensitized solar cells with light-harvesting mesoporous silica nanoparticles gel-electrolyte. J Power Sour 245:411–417CrossRef

29.

Shieh FK, Hsiao CT, Kao HM, Sue YC, Lin KW, Wu CC, Chen XH, Wan L, Hsu MH, Hwu JR, Tsung CK, Wu KCW (2013) Size-adjustable annular ring-functionalized mesoporous silica as effective and selective adsorbents for heavy metal ions. RSC Adv 3(48):25686–25689CrossRef

30.

Hong YJ, Kang YC (2017) Selenium-impregnated hollow carbon microspheres as efficient cathode materials for lithium–selenium batteries. Carbon 111:198–206CrossRef

31.

Wang CW, Wang Y, Graser J, Zhao R, Gao F, ÓConnell MJ (2013) Solution-based carbohydrate synthesis of individual solid, hollow, and porous carbon nanospheres using spray pyrolysis. ACS Nano 7(12):11156–11165CrossRef

32.

Guo DY, Chen XA, Fang ZP, He YF, Zheng C, Yang Z, Yang KQ, Chen Y, Huang SM (2015) Hydrangea-like multi-scale carbon hollow submicron spheres with hierarchical pores for high performance supercapacitor electrodes. Electrochim Acta 176:207–214CrossRef

33.

Otowa T, Tanibata R, Itoh M (1993) Production and adsorption characteristics of MAXSORB: high-surface-area active carbon. Gas Sep Purif 7(4):241–245CrossRef

34.

Castelló DL, Calo JM, Amorós DC, Solano AL (2007) Carbon activation with KOH as explored by temperature programmed techniques, and the effects of hydrogen. Carbon 45(13):2529–2536CrossRef

35.

Piñero ER, Azaïs P, Cacciaguerra T, Amorós DC, Solano AL, Béguin F (2005) KOH and NaOH activation mechanisms of multiwalled carbon nanotubes with different structural organisation. Carbon 43(4):786–795CrossRef

36.

Qiao WM, Yoon SH, Mochida I (2006) KOH activation of needle coke to develop activated carbons for high-performance EDLC. Energy Fuels 20(4):1680–1684CrossRef

37.

Wang JC, Kaskel S (2012) KOH activation of carbon-based materials for energy storage. J Mater Chem 22(45):23710–23725CrossRef

38.

Han JP, Xu GY, Ding B, Pan J, Dou H, MacFarlane DR (2014) Porous nitrogen-doped hollow carbon spheres derived from polyaniline for high performance supercapacitors. J Mater Chem A 2(15):5352–5357CrossRef

39.

Kim TY, Jung GJ, Yoo S, Suh KS, Ruoff RS (2013) Activated graphene-based carbons as supercapacitor electrodes with macro- and mesopores. ACS Nano 7(8):6899–6905CrossRef

40.

Sevilla M, Fuertes AB (2009) Chemical and structural properties of carbonaceous products obtained by hydrothermal carbonization of saccharides. Chem-A Eur J 15(16):4195–4203CrossRef

41.

Titirici MM, White RJ, Falco C, Sevilla M (2012) Black perspectives for a green future: hydrothermal carbons for environment protection and energy storage. Energy Environ Sci 5(5):6796–6822CrossRef

42.

Sevilla M, Fuertes AB (2009) The production of carbon materials by hydrothermal carbonization of cellulose. Carbon 47(9):2281–2289CrossRef

43.

Aida TM, Sato Y, Watanabe M, Tajima K, Nonaka T, Hattori H, Arai K (2007) Dehydration of d-glucose in high temperature water at pressures up to 80 MPa. J Supercrit Fluids 40(3):381–388CrossRef

44.

Li ZJ, Zhang WY, Li YC, Wang HY, Qin Z (2018) Activated pyrene decorated graphene with enhanced performance for electrochemical energy storage. Chem Eng J 334:845–854CrossRef

45.

Zhao X, Zhang LL, Murali S, Stoller MD, Zhang QH, Zhu YW, Ruoff RS (2012) Incorporation of manganese dioxide within ultraporous activated graphene for high-performance electrochemical capacitors. ACS Nano 6(6):5404–5412CrossRef

46.

Zhang LL, Zhao X, Stoller MD, Zhu YW, Ji HX, Murali S, Wu YP, Perales S, Clevenger B, Ruoff RS (2012) Highly conductive and porous activated reduced graphene oxide films for high-power supercapacitors. Nano Lett 12(4):1806–1812CrossRef

47.

Pang J, Zhang WF, Zhang H, Zhang JL, Zhang HM, Cao GP, Han MF, Yang YS (2018) Sustainable nitrogen-containing hierarchical porous carbon spheres derived from sodium lignosulfonate for high-performance supercapacitors. Carbon 132:280–293CrossRef

48.

Etacheri V, Wang CW, O’Connell MJ, Chan CK, Pol VG (2015) Porous carbon sphere anodes for enhanced lithium-ion storage. J Mater Chem A 3(18):9861–9868CrossRef

49.

Yang MM, Cheng B, Song HH, Chen XH (2010) Preparation and electrochemical performance of polyaniline-based carbon nanotubes as electrode material for supercapacitor. Electrochim Acta 55(23):7021–7027CrossRef

50.

Saha DPD, Li YC, Bi ZH, Chen JH, Keum JK, Hensley DK, Grappe HA, Meyer HM, Dai S, Paranthaman MP, Naskar AK (2014) Studies on supercapacitor electrode material from activated lignin-derived mesoporous carbon. Langmuir 30(3):900–910CrossRef

51.

Cai TW, Zhou M, Ren DY, Han GS, Guan SY (2013) Highly ordered mesoporous phenol–formaldehyde carbon as supercapacitor electrode material. J Power Sour 231(6):197–202CrossRef

52.

Wei K, Kim KO, Song KH, Kang CY, Lee JS, Gopiraman M, Kim IS (2017) Nitrogen-and oxygen-containing porous ultrafine carbon nanofiber: a highly flexible electrode material for supercapacitor. J Mater Sci Technol 33(5):424–431CrossRef

53.

Wang CH, Wen WC, Hsu HC, Yao BY (2016) High-capacitance koh-activated nitrogen-containing porous carbon material from waste coffee grounds in supercapacitor. Adv Powder Technol 27(4):1387–1395CrossRef

54.

Lee EJ, Lee YJ, Kim JK, Lee M, Yi J, Yoon JR, Song IK (2016) Preparation and characterization of nitrogen-enriched carbon aerogel as a supercapacitor electrode material. J Nanosci Nanotechnol 16(10):10413–10419CrossRef

55.

Guo CX, Li CM (2011) A self-assembled hierarchical nanostructure comprising carbon spheres and graphene nanosheets for enhanced supercapacitor performance. Energy Environ Sci 4(11):4504–4507CrossRef

56.

Zhou JH, He JP, Zhang CX, Wang T, Sun D, Di ZD, Dj Wang (2010) Mesoporous carbon spheres with uniformly penetrating channels and their use as a supercapacitor electrode material. Mater Charact 61(1):31–38CrossRef

57.

Ma XM, Liu MX, Gan LH, Zhao YH, Chen LW (2013) Synthesis of micro- and mesoporous carbon spheres for supercapacitor electrode. J Solid State Electrochem 17(8):2293–2301CrossRef

58.

Chen AB, Yu YF, Xing TT, Wang RJ, Zhang Y, Li Q (2015) Synthesis of graphitic carbon spheres for enhanced supercapacitor performance. J Mater Sci 50(16):5578–5582. https://doi.org/10.1007/s10853-015-9106-x CrossRef

59.

Shen KW, Ran F, Zhang XX, Liu C, Wang NJ, Niu XQ, Liu Y, Zhang DJ, Kong LB, Kang L, Chen SW (2015) Supercapacitor electrodes based on nano-polyaniline deposited on hollow carbon spheres derived from cross-linked co-polymers. Synth Met 209(1):369–376CrossRef

60.

Yang W, Feng Y, Xiao D, Yuan H (2015) Fabrication of microporous and mesoporous carbon spheres for high-performance supercapacitor electrode materials. Int J Energy Res 39(6):805–811CrossRef

61.

Kim SK, Jung E, Goodman MD, Schweizer KS, Tatsuda N, Yano K, Braun PV (2015) Self-assembly of monodisperse starburst carbon spheres into hierarchically organized nanostructured supercapacitor electrodes. ACS Appl Mater Interfaces 7(17):9128–9133CrossRef

62.

Liu J, Wang XY, Gao J, Zhang YW, Lu Q, Liu M (2016) Hollow porous carbon spheres with hierarchical nanoarchitecture for application of the high performance supercapacitors. Electrochim Acta 211:183–192CrossRef

Titel: The preparation of porous carbon spheres with hierarchical pore structure and the application for high-performance supercapacitors
verfasst von: Zhihong Tang
Song Jiang
Shuling Shen
Junhe Yang
Publikationsdatum: 09.07.2018
Verlag: Springer US
Erschienen in: Journal of Materials Science / Ausgabe 19/2018
Print ISSN: 0022-2461
Elektronische ISSN: 1573-4803
DOI: https://doi.org/10.1007/s10853-018-2584-x

Premium Partner

Marktübersichten

Die im Laufe eines Jahres in der „adhäsion“ veröffentlichten Marktübersichten helfen Anwendern verschiedenster Branchen, sich einen gezielten Überblick über Lieferantenangebote zu verschaffen.

Zur Marktübersicht

Springer Professional

Abstract

Bitte loggen Sie sich ein, um Zugang zu Ihrer Lizenz zu erhalten.

Sie haben noch keine Lizenz? Dann Informieren Sie sich jetzt über unsere Produkte:

Springer Professional "Wirtschaft+Technik"

Springer Professional "Technik"

Weitere Artikel der Ausgabe 19/2018

Route to design highly efficient thermal rectifiers from microstructured cellular biomorphic materials

Mechanical activation of pre-alloyed NiTi2 and elemental Ni for the synthesis of NiTi alloys

Synthesis of LaB6–Al2O3 nanocomposite powders via ball milling-assisted annealing

Graphene/ZnO nanocomposite with seamless interface renders photoluminescence quenching and photocatalytic activity enhancement

Nanoscale mechanisms for high-pressure mechanochemistry: a phase field study

The formation of Fe–Ga–In nanocomposite particles using mechanochemical interaction of Fe with the Ga–In eutectic

Premium Partner

Marktübersichten