Recent research on emerging organic electrode materials for energy storage

Tao Huang; Mengqi Long; Jun Xiao; Hao Liu; Guoxiu Wang

doi:10.20517/energymater.2021.09

Energy Materials ›› 2021, Vol. 1 ›› Issue (1) :100009 DOI: 10.20517/energymater.2021.09

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Recent research on emerging organic electrode materials for energy storage

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Abstract

Due to the growth of the demand for rechargeable batteries in intelligent terminals, electric vehicles, energy storage, and other markets, electrode materials, as the essential of batteries, have attracted tremendous attention. The research of emerging organic electrode materials in batteries has been boosted recently to their advantages of low cost, environmental friendliness, biodegradability, and designability. This manuscript highlights and classifies several recent studies on organic electrode materials and lists their potential applications in various battery systems. Finally, the challenge and perspective of organic electrode materials are also summarized.

Keywords

Organic electrode materials / batteries / energy storage / low-cost electrode materials / environmentally friendly materials

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Tao Huang, Mengqi Long, Jun Xiao, Hao Liu, Guoxiu Wang. Recent research on emerging organic electrode materials for energy storage. Energy Materials, 2021, 1(1): 100009 DOI:10.20517/energymater.2021.09

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References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Jafarzadeh Ghoushchi S,Mardani A.An extended new approach for forecasting short-term wind power using modified fuzzy wavelet neural network: a case study in wind power plant.Energy2021;223:120052

[2]	Li J,Wu Y.How to make better use of intermittent and variable energy?.Renew Sustain Energy Rev2021;137:110626

[3]	Ghaedi A.Generated power enhancement of the barrage type tidal power plants.Ocean Engineering2021;226:108787

[4]	Dicorato M,Pisani M.Planning and operating combined wind-storage system in electricity market.IEEE Trans Sustain Energy2012;3:209-17

[5]	Wang P.Summary of lead-acid battery management system.IOP Conf Ser: Earth Environ Sci2020;440:022014

[6]	Browne MP,Pumera M.Layered and two dimensional metal oxides for electrochemical energy conversion.Energy Environ Sci2019;12:41-58

[7]	Joshi T,Yushin G.Effects of dissolved transition metals on the electrochemical performance and SEI growth in lithium-ion batteries.J Electrochem Soc2014;161:A1915

[8]	Shukla AK,Ophus C,Hage F.Unravelling structural ambiguities in lithium- and manganese-rich transition metal oxides.Nat Commun2015;6:8711 PMCID:PMC4846316

[9]	Liao Y,Sun I.Electrochemical study and recovery of Pb using 1:2 choline chloride/urea deep eutectic solvent: a variety of Pb species PbSO₄, PbO₂, and PbO exhibits the analogous thermodynamic behavior.Electrochimica Acta2016;214:265-75

[10]	Qiu R,Qin B,Ruan J.Environmental-friendly recovery of non-metallic resources from waste printed circuit boards: a review.J Clean Prod2021;279:123738

[11]	Bashir S,Gulshan AB.Effects of organic and inorganic passivators on the immobilization of cadmium in contaminated soils: a review.Environmental Engineering Science2019;36:986-98

[12]	Weinert JX,Wei X.Lead-acid and lithium-ion batteries for the Chinese electric bike market and implications on future technology advancement.J Power Sources2007;172:938-45

[13]	Zou C,Hu X,Wik T.A review of fractional-order techniques applied to lithium-ion batteries, lead-acid batteries, and supercapacitors.J Power Sources2018;390:286-96

[14]	Ryu H,Myung S,Sun Y.Reducing cobalt from lithium-ion batteries for the electric vehicle era.Energy Environ Sci2021;14:844-52

[15]	Huang T,Ma L,Liu R.A hit-and-run strategy towards perylene diimide/reduced graphene oxide as high performance sodium ion battery cathode.Chem Eng J2018;349:66-71

[16]	Schon TB,Li PF.The rise of organic electrode materials for energy storage.Chem Soc Rev2016;45:6345-404

[17]	Huskinson B,Suh C.A metal-free organic-inorganic aqueous flow battery.Nature2014;505:195-8

[18]	Wang M,Lee C.Low-cost metallic anode materials for high performance rechargeable batteries.Adv Energy Mater2017;7:1700536

[19]	Kim DJ,Otley MT.Rechargeable aluminium organic batteries.Nat Energy2019;4:51-9 PMCID:PMC6760151

[20]	Dai G,Niu Z.A dual-ion organic symmetric battery constructed from phenazine-based artificial bipolar molecules.Angew Chem2019;131:10007-11

[21]	Tie Z,Deng S,Niu Z.Proton insertion chemistry of a Zinc-organic battery.Angew Chem Int Ed Engl2020;59:4920-4

[22]	Yue F,Deng S,Yang M.An ultralow temperature aqueous battery with proton chemistry.Angew Chem2021;133:14001-5

[23]	Raw material purchase website. Spot supply of p-Chloranil: Available from: https://china.guidechem.com/trade/pdetail1654985.html [Last accessed on 26 Oct 2021]

[24]	Raw material price news. On September 14, 2021, the price of lead was restored in the domestic market. Available from: https://qian.mymetal.net/m/21/0914/11/888208DBE89B0345.html [Last accessed on 26 Oct 2021]

[25]	Raw material purchase website. Spot supply of lithium cobalt oxide. Available from: https://detail.1688.com/offer/651805024176.html?spm=a261b.12436309.ul20190116.102.17c753829yccbS [Last accessed on 26 Oct 2021]

[26]	Guo Z,Dong X,Wang Y.An environmentally friendly and flexible aqueous zinc battery using an organic cathode.Angew Chem2018;130:11911-5

[27]	Nguyen TP,Kang N.Polypeptide organic radical batteries.Nature2021;593:61-6

[28]	Eder S,Nogala W.Switching between local and global aromaticity in a conjugated macrocycle for high-performance organic sodium-ion battery anodes.Angew Chem Int Ed Engl2020;59:12958-64 PMCID:PMC7496320

[29]	Cong G,Lai NC,Lu YC.A high-rate and long-life organic-oxygen battery.Nat Mater2019;18:390-6

[30]	Tong Z,Wang H,Yang R.Tailored redox kinetics, electronic structures and electrode/electrolyte interfaces for fast and high energy-density potassium-organic battery.Adv Funct Mater2019;30:1907656

[31]	Yang X,Dunlap N.A Truxenone-based covalent organic framework as an all-solid-state lithium-ion battery cathode with high capacity.Angew Chem Int Ed Engl2020;59:20385-9

[32]	Wang H,Wu Q.Conjugated microporous polymers with bipolar and double redox-active centers for high-performance dual-ion, organic symmetric battery.Adv Energy Mater2021;11:2100381