Top

Journal of Materials Science

Published in:

19-09-2017 | Energy materials

Manganese oxides derived from Mn(II)-based metal–organic framework as supercapacitor electrode materials

Authors: Ling-Dong Chen, Yue-Qing Zheng, Hong-Lin Zhu

Published in: Journal of Materials Science | Issue 2/2018

Activate our intelligent search to find suitable subject content or patents.

search-config

AI-assisted search

Off

Abstract

Manganese oxides have been received increasing interest due to their potential application in supercapacitor electrode material. In this paper, a new metal–organic framework Mn₃(MA)(H₂O)₂(ipa)₃ (1) (H₂ipa = isophthalic acid; MA = melamine) was synthesized via hydrothermal reaction; it presents a 3D network structure which can be simplified as an unusual non-interpenetrated pseudo-primitive 6-connected cubic topology. The Mn-MOF was regarded as a precursor to prepare variety of manganese oxides via calcination in different environments. Cyclic voltammetry and galvanostatic charge–discharge measurements were employed to characterize the electrochemical performance of MnO_X materials in Na₂SO₄ electrolyte. The results show that the MnO_X materials reveal excellent long-term cycling stability with enhanced capacitance after charge–discharge cycles. The optimum specific capacitance can be 150 F g⁻¹ with a current density of 1.0 A g⁻¹.

previous article High refractive index coating of phosphor-in-glass for enhanced light extraction efficiency of white LEDs

next article Porous layer assembled hierarchical Co3O4 as anode materials for lithium-ion batteries

Dont have a licence yet? Then find out more about our products and how to get one now:

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!

inform now

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!

inform now

Available only for authorised users

Wang GP, Zhang L, Zhang JJ (2012) A review of electrode materials for electrochemical supercapacitors. Chem Soc Rev 41:797–828CrossRef

Chen LB, Chen YR, Wu JF, Wang JW, Bai H, Li L (2014) Electrochemical supercapacitor with polymeric active electrolyte. J Mater Chem A 2:10526–10531CrossRef

Zhao Y, Song ZX, Li X, Sun Q, Cheng NC, Lawes S, Sun XL (2016) Metal organic frameworks for energy storage and conversion. Energy Storage Mater 2:35–62CrossRef

Simon P, Gogotsi Y, Dunn B (2014) Where do batteries end and supercapacitors begin. Science 343:1210–1211CrossRef

Klankowski SA, Pandey GP, Malek G, Thomas CR, Bernasek SL, Wu J, Li J (2015) Higher-power supercapacitor electrodes based on mesoporous manganese oxide coating on vertically aligned carbon nanofibers. Nanoscale 7:8485–8494CrossRef

Tang YF, Liu YY, Yu SX, Mu SC, Xiao SH, Zhao YF, Gao FM (2014) Morphology controlled synthesis of monodisperse cobalt hydroxide for supercapacitor with high performance and long cycle life. J Power Sources 256:160–169CrossRef

Yang PH, Mai WJ (2014) Flexible solid-state electrochemical supercapacitors. Nano Energy 8:274–290CrossRef

Conway BE (1999) Electrochemical supercapacitors: scientific fundamentals and technological applications. Kluwer Academic/Plenum, New YorkCrossRef

Jiang H, Lee PS, Li C (2013) 3D carbon based nanostructures for advanced supercapacitors. Energy Environ Sci 6:41–53CrossRef

10.

Li WY, Shao JJ, Liu Q, Liu XJ, Zhou XY, Hu JQ (2015) Facile synthesis of porous Mn₂O₃ nanocubics for high-rate supercapacitors. Electrochim Acta 157:108–114CrossRef

11.

Wu ZS, Ren WC, Wang DW, Li F, Liu B, Cheng HM (2010) High-energy MnO₂ nanowire/graphene and graphene asymmetric electrochemical capacitors. ACS Nano 4:5835–5842CrossRef

12.

Wang DW, Fang HT, Li F, Chen ZG, Zhong QS, Lu GQ, Cheng HM (2008) Aligned titania nanotubes as an intercalation anode material for hybrid electrochemical energy storage. Adv Funct Mater 18:3787–3793CrossRef

13.

Qu QT, Shi Y, Li LL, Guo WL, Wu YP, Zhang HP, Guan SY, Holze R (2009) V₂O₅·0.6H₂O nanoribbons as cathode material for asymmetric supercapacitor in K₂SO₄ Solution. Electrochem Commun 11:1325–1328CrossRef

14.

Oh I, Kim M, Kim J (2015) Controlling hydrazine reduction to deposit iron oxides on oxidized activated carbon for supercapacitor application. Energy 86:292–299CrossRef

15.

Maiti S, Pramanik A, Mahanty S (2016) Electrochemical energy storage in Mn₂O₃ porous nanobars derived from morphology-conserved transformation of benzenetricarboxylate-bridged metal-organic framework. CrystEngComm 18:450–461CrossRef

16.

Liu YB, Lin LY, Huang YY, Tu CC (2016) Investigation of the electroactive capability for the supercapacitor electrode with cobalt oxide rhombus nanopillar and nanobrush arrays. J Power Sources 315:23–34CrossRef

17.

Navale ST, Mali VV, Pawar SA, Mane RS, Naushad M, Stadler FJ, Patil VB (2015) Electrochemical supercapacitor development based on electrodeposited nickel oxide film. RSC Adv 5:51961–51965CrossRef

18.

Zhao YF, Zhang XJ, He J, Zhang L, Xia MR, Gao FM (2015) Morphology controlled synthesis of nickel cobalt oxide for supercapacitor application with enhanced cycling stability. Electrochim Acta 174:51–56CrossRef

19.

Xiao W, Chen JS, Lou XW (2011) Synthesis of octahedral Mn₃O₄ crystals and their derived Mn₃O₄–MnO₂ heterostructures via oriented growth. CrystEngComm 13:5685–5687CrossRef

20.

Song MK, Cheng S, Chen H, Qin W, Nam KW, Xu S, Yang XQ, Bongiorno A, Lee J, Bai J, Tyson TA, Cho J, Liu M (2012) Anomalous pseudocapacitive behavior of a nanostructured, mixed-valent manganese oxide film for electrical energy storage. Nano Lett 12:3483–3490CrossRef

21.

Kolathodi MS, Rao SNH, Natarajan TS, Singh G (2016) Beaded manganese oxide (Mn₂O₃) nanofibers: preparation and application for capacitive energy storage. J Mater Chem A 4:7883–7891CrossRef

22.

Ma TY, Dai S, Jaroniec M, Qiao SZ (2014) Metal–organic framework derived hybrid Co₃O₄-carbon porous nanowire arrays as reversible oxygen evolution electrodes. J Am Chem Soc 136:13925–13931CrossRef

23.

Zanchetta E, Malfatti L, Ricco R, Styles MJ, Lisi F, Coghlan CJ, Doonan CJ, Hill AJ, Brusatin G, Falcaro P (2015) ZnO as an efficient nucleating agent for rapid, room temperature synthesis and patterning of Zn-based metal–organic frameworks. Chem Mater 27:690–699CrossRef

24.

Zhang J, Wang LJ, Xu LL, Ge XM, Zhao X, Lai M, Liu ZL, Chen W (2015) Porous cobalt-manganese oxide nanocubes derived from metal organic frameworks as a cathode catalyst for rechargeable Li-O₂ batteries. Nanoscale 7:720–726CrossRef

25.

Nguyen T, Boudard M, Carmezim MJ, Montemor MF (2016) Hydrogen bubbling-induced micro/nano porous MnO₂ films prepared by electrodeposition for pseudocapacitor electrodes. Electrochim Acta 202:166–174CrossRef

26.

Li SL, Xu Q (2013) Metal–organic frameworks as platforms for clean energy. Energy Environ Sci 6:1656–1683CrossRef

27.

Wang L, Han YZ, Feng X, Zhou JW, Qi PF, Wang B (2016) Metal–organic frameworks for energy storage: batteries and supercapacitors. Coord Chem Rev 307:361–381CrossRef

28.

Salunkhe RR, Tang J, Kamachi Y, Nakato T, Kim JH, Yamauchi Y (2015) Asymmetric supercapacitors using 3D nanoporous carbon and cobalt oxide electrodes synthesized from a single metal–organic framework. ACS Nano 9:6288–6296CrossRef

29.

Song YH, Li X, Wei CT, Fu JY, Xu FG, Tan HL, Tang J, Wang L (2015) A green strategy to prepare metal oxide superstructure from metal-organic frameworks. Sci Rep 5:8401CrossRef

30.

Song YH, Li X, Sun LL, Wang L (2015) Metal/metal oxide nanostructures derived from metal–organic frameworks. RSC Adv 5:7267–7279CrossRef

31.

Xu W, Li TT, Zheng YQ (2016) Porous Co₃O₄ nanoparticles derived from a Co(II)- cyclohexanehexacarboxylate metal–organic framework and used in a supercapacitor with good cycling stability. RSC Adv 6:86447–86454CrossRef

32.

Zhang L, Li W, Zhang J, Li ZJ, Qin YY, Cheng JK, Yao YG (2008) Antiferromagnetic interactions in melamine-bridged trinuclear cobalt complex. Inorg Chem Commun 11:279–282CrossRef

33.

Lee SH, Lee H, Cho MS, Namb JD, Lee Y (2013) Morphology and composition control of manganese oxide by the pulse reverse electrodeposition technique for high performance supercapacitors. J Mater Chem A 1:14606–14611CrossRef

34.

Gao L, Zhang LL, Jia SY, Liu XC, Wang YH, Xing SX (2016) Facile route to achieve hierarchical hollow MnO₂ nanostructures. Electrochim Acta 203:59–65CrossRef

35.

Zhao YC, Misch J, Wang CA (2016) Facile synthesis and characterization of MnO₂ nanomaterials as supercapacitor electrode materials. J Mater Sci Mater Electron 27:5533–5542CrossRef

36.

Ren XG, An JW, Yan SH, Gao LZ, Xu SM, Wang XM, Wei GQ (2016) Assembly of Mn₃O₄/carbon black composite and its supercapacitor application. Int J Electrochem Sci 11:5080–5089CrossRef

37.

Lee E, Lee T, Kim BS (2014) Electrospun nanofiber of hybrid manganese oxides for supercapacitor: relevance to mixed inorganic interfaces. J Power Sources 255:335–340CrossRef

38.

Xuan LY, Chen LY, Yang QQ, Chen WF, Hou XH, Jiang YQ, Zhang Q, Yuan Y (2015) Engineering 2D multi-layer graphene-like Co₃O₄ thin sheets with vertically aligned nanosheets as basic building units for advanced pseudocapacitor materials. J Mater Chem A 3:17525–17533CrossRef

39.

Chen SL, Liu F, Xiang QJ, Feng XH, Qiu GH (2013) Synthesis of Mn₂O₃ microstructures and their energy storage ability studies. Electrochim Acta 106:360–371CrossRef

40.

Tao T, Chen Y, Chen YH, Fox DS, Zhang HZ, Zhou MQ, Raveggi M, Barlow AJ, Glushenkov AM (2017) Two-dimensional metal oxide nanoflower- like architectures: a general growth method and their applications in energy storage and as model materials for nanofabrication. ChemPlusChem 82:295–302CrossRef

41.

Zhang F, Zhang XG (2012) Mn₂O₃ sub-micron powder: preparation via complex thermolysis route and electrochemical properties. Chin J Inorg Chem 28:2626–2632

42.

Liang JY, Bu LT, Cao WG, Chen T, Cao YC (2016) Facile fabrication of coaxial-cable like Mn₂O₃ nanofiber by electrospinning: application as electrode material for supercapacitor. J Taiwan Inst Chem Eng 65:584–590CrossRef

43.

Pang H, Li XR, Li B, Zhang YZ, Zhao QX, Lai WY, Huang W (2016) Porous dimanganese trioxide microflowers derived from microcoordinations for flexible solid-state asymmetric supercapacitors. Nanoscale 8:11689–11697CrossRef

44.

Fan YF, Zhang XD, Liu YS, Cai Q, Zhang JM (2013) One-pot hydrothermal synthesis of Mn₃O₄/graphene nanocomposite for supercapacitors. Mater Lett 95:153–156CrossRef

45.

Bhagwan J, Sahoo A, Yadav KL, Sharma Y (2015) Porous, One dimensional and high aspect ratio Mn₃O₄ nanofibers: fabrication and optimization for enhanced supercapacitive properties. Electrochim Acta 174:992–1001CrossRef

46.

Yang JH, Yang XF, Zhong YL, Ying JY (2015) Porous MnO/Mn₃O₄ nanocomposites for electrochemical energy storage. Nano Energy 13:702–708CrossRef

Title: Manganese oxides derived from Mn(II)-based metal–organic framework as supercapacitor electrode materials
Authors: Ling-Dong Chen
Yue-Qing Zheng
Hong-Lin Zhu
Publication date: 19-09-2017
Publisher: Springer US
Published in: Journal of Materials Science / Issue 2/2018
Print ISSN: 0022-2461
Electronic ISSN: 1573-4803
DOI: https://doi.org/10.1007/s10853-017-1575-7

Springer Professional

Abstract

Please log in to get access to your license.

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Springer Professional "Technik"

Other articles of this Issue 2/2018

Stretchable and insulating characteristics of chemically bonded graphene and carbon nanotube composite materials

Fabrication of stable Ni–Al4Ni3–Al2O3 superhydrophobic surface on aluminum substrate for self-cleaning, anti-corrosive and catalytic performance

Investigating the role of different reducing agents, molar ratios, and synthesis medium over the formation of ZnO nanostructures and their photo-catalytic activity

Enhanced magnetoelectric coupling in La-modified Bi5Co0.5Fe0.5Ti3O15 multiferroic ceramics

Detection of cracks in refractory materials by an enhanced digital image correlation technique

Yolk-shell structured Cu2O as a high-performance cathode catalyst for the rechargeable Li-O2 batteries

Premium Partners