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References (81)
-
Qing Zhao, Yong Lu, Jun Chen (2017)
Advanced Organic Electrode Materials for Rechargeable Sodium‐Ion BatteriesAdvanced Energy Materials, 7
-
S. Tobishima, J. Yamaki, A. Yamaji (1984)
Cathode Characteristics of Organic Electron Acceptors for Lithium BatteriesJournal of The Electrochemical Society, 131
-
A. Bakandritsos, M. Pykal, P. Błoński, P. Jakubec, D. Chronopoulos, K. Polakova, V. Georgakilas, K. Čépe, Ondřej Tomanec, V. Ranc, A. Bourlinos, R. Zbořil, M. Otyepka (2017)
Cyanographene and Graphene Acid: Emerging Derivatives Enabling High-Yield and Selective Functionalization of GrapheneACS Nano, 11
-
Yan Wang, Xueying Zheng, Q. Qu, Gao Liu, Vincent Battglia, Honghe Zheng (2018)
A novel maleic acid/graphite composite anode for lithium ion batteries with high energy and power densityCarbon
-
Cameron Bentley, A. Bond, A. Hollenkamp, P. Mahon, Jie Zhang (2015)
Electrochemical Proton Reduction and Equilibrium Acidity (pKa) in Aprotic Ionic Liquids: Phenols, Carboxylic Acids, and Sulfonic AcidsJournal of Physical Chemistry C, 119
-
Blanco M. (2019)
9438Chem. Sci., 10
-
Kresse G. (1993)
558Phys. Rev. B, 47
-
Jang‐Yeon Hwang, Seung‐Taek Myung, Yang‐Kook Sun (2018)
Recent Progress in Rechargeable Potassium BatteriesAdvanced Functional Materials, 28
-
P. Verma, P. Maire, P. Novák (2010)
A review of the features and analyses of the solid electrolyte interphase in Li-ion batteriesElectrochimica Acta, 55
-
M. Forghani, S. Donne (2018)
Method Comparison for Deconvoluting Capacitive and Pseudo-Capacitive Contributions to Electrochemical Capacitor Electrode BehaviorJournal of The Electrochemical Society, 165
-
M. Shaibani, Meysam Mirshekarloo, Ruhani Singh, C. Easton, M. Cooray, Nicolas Eshraghi, Thomas Abendroth, S. Dörfler, H. Althues, Stefan Kaskel, Stefan Kaskel, A. Hollenkamp, Matthew Hill, Matthew Hill, M. Majumder (2020)
Expansion-tolerant architectures for stable cycling of ultrahigh-loading sulfur cathodes in lithium-sulfur batteriesScience Advances, 6
-
Jianli Zou, Christopher Sole, N. Drewett, Matěj Velický, L. Hardwick (2016)
In Situ Study of Li Intercalation into Highly Crystalline Graphitic Flakes of Varying Thicknesses.The journal of physical chemistry letters, 7 21
-
V. Georgakilas, M. Otyepka, A. Bourlinos, V. Chandra, Namdong Kim, K. Kemp, P. Hobza, R. Zbořil, Kwang Kim (2012)
Functionalization of graphene: covalent and non-covalent approaches, derivatives and applications.Chemical reviews, 112 11
-
X. Judez, Lixin Qiao, M. Armand, Heng Zhang (2019)
Energy Density Assessment of Organic BatteriesACS Applied Energy Materials
-
L. Fédèle, F. Sauvage, Sébastien Gottis, C. Davoisne, Elodie Salager, J. Chotard, M. Bécuwe (2017)
2D-Layered Lithium Carboxylate Based on Biphenyl Core as Negative Electrode for Organic Lithium-Ion BatteriesChemistry of Materials, 29
-
G. Kresse, J. Furthmüller (1996)
Efficiency of ab-initio total energy calculations for metals and semiconductors using a plane-wave basis setComputational Materials Science, 6
-
Zhu H. (2015)
14708Chem. Commun., 51
-
Huang Y. (2017)
1588J. Mater. Chem. A, 5
-
P. Poizot, J. Gaubicher, S. Renault, L. Dubois, Yanliang Liang, Yan Yao (2020)
Opportunities and Challenges for Organic Electrodes in Electrochemical Energy Storage.Chemical reviews
-
E. Peled, S. Menkin (2017)
Review—SEI: Past, Present and FutureJournal of The Electrochemical Society, 164
-
Nakahara K. (2002)
351Chem. Phys. Lett., 359
-
Y. Morita, Shuichi Suzuki, Kazunobu Sato, T. Takui (2011)
Synthetic organic spin chemistry for structurally well-defined open-shell graphene fragments.Nature chemistry, 3 3
-
Hiromichi Numazawa, Kosuke Sato, H. Imai, Y. Oaki (2018)
Multistage redox reactions of conductive-polymer nanostructures with lithium ions: potential for high-performance organic anodesNPG Asia Materials, 10
-
Medveď M. (2018)
4696Nanoscale, 10
-
Zhong-Li Hu, Shah Sayed, Tao Jiang, Xingyu Zhu, Chen Lu, Gulian Wang, Jingyu Sun, Arif Rashid, Chenglin Yan, Li Zhang, Zhongfan Liu (2018)
Self‐Assembled Binary Organic Granules with Multiple Lithium Uptake Mechanisms toward High‐Energy Flexible Lithium‐Ion Hybrid SupercapacitorsAdvanced Energy Materials, 8
-
D. Kim, Dong-Joo Yoo, Michael Otley, A. Prokofjevs, C. Pezzato, M. Owczarek, S. Lee, J. Choi, J. Stoddart (2018)
Rechargeable aluminium organic batteriesNature Energy, 4
-
(2004)
Proc -
Jiao L. S. (2015)
15979Chem. Commun., 51
-
Bernhard Häupler, Andreas Wild, U. Schubert (2015)
Carbonyls: Powerful Organic Materials for Secondary BatteriesAdvanced Energy Materials, 5
-
Kresse G. (1999)
1758Phys. Rev. B, 59
-
Sechan Lee, Giyun Kwon, Kyojin Ku, Kyungho Yoon, Sung‐Kyun Jung, Hee‐Dae Lim, K. Kang (2018)
Recent Progress in Organic Electrodes for Li and Na Rechargeable BatteriesAdvanced Materials, 30
-
T. Matsunaga, Takayuki Kubota, T. Sugimoto, M. Satoh (2011)
High-performance Lithium Secondary Batteries Using Cathode Active Materials of Triquinoxalinylenes Exhibiting Six Electron MigrationChemistry Letters, 40
-
Sechan Lee, Jihyun Hong, K. Kang (2020)
Redox‐Active Organic Compounds for Future Sustainable Energy Storage SystemAdvanced Energy Materials, 10
-
Blöchl P. E. (1994)
17953Phys. Rev. B, 50
-
D. Marcano, D. Kosynkin, J. Berlin, A. Sinitskii, Zhengzong Sun, A. Slesarev, L. Alemany, W. Lu, J. Tour (2010)
Improved synthesis of graphene oxide.ACS nano, 4 8
-
Qing Zhao, Jianbin Wang, Yong Lu, Yixin Li, G. Liang, Jun Chen (2016)
Oxocarbon Salts for Fast Rechargeable Batteries.Angewandte Chemie, 55 40
-
D. Macinnes, M. Druy, P. Nigrey, D. Nairns, A. MacDiarmid, A. Heeger (1981)
Organic batteries: reversible n- and p- type electrochemical doping of polyacetylene, (CH)xJournal of The Chemical Society, Chemical Communications
-
W. Su, Naresh Kumar, A. Krayev, M. Chaigneau (2018)
In situ topographical chemical and electrical imaging of carboxyl graphene oxide at the nanoscaleNature Communications, 9
-
A. Lerf, Heyong He, M. Forster, J. Klinowski (1998)
Structure of Graphite Oxide RevisitedJournal of Physical Chemistry B, 102
-
Kresse G. (1996)
11169Phys. Rev. B, 54
-
M. Armand, S. Grugeon, H. Vezin, S. Laruelle, Périnne Ribière, P. Poizot, J. Tarascon (2009)
Conjugated dicarboxylate anodes for Li-ion batteries.Nature materials, 8 2
-
Yi Heng Cheong, Muhammad Nasir, A. Bakandritsos, M. Pykal, P. Jakubec, R. Zbořil, M. Otyepka, M. Pumera (2018)
Cyanographene and Graphene Acid: The Functional Group of Graphene Derivative Determines the Application in Electrochemical Sensing and CapacitorsChemElectroChem
-
Pengcheng Zhang, Tao Yuan, Y. Pang, Chengxin Peng, Junhe Yang, Zifeng Ma, Shiyou Zheng (2019)
Influence of Current Density on Graphite Anode Failure in Lithium-Ion BatteriesJournal of The Electrochemical Society
-
L. Fédèle, F. Sauvage, Florent Lepoivre, Sébastien Gottis, C. Davoisne, M. Courty, J. Tarascon, M. Bécuwe (2019)
Mesoscale Texturation of Organic-Based Negative Electrode Material through in Situ Proton Reduction of Conjugated Carboxylic AcidChemistry of Materials
-
Rasheev H. G. (2020)
14152J. Mater. Chem. A, 8
-
J. Kolar̆ík, A. Bakandritsos, Zdeněk Bad'ura, Rabindranath Lo, G. Zoppellaro, Š. Kment, A. Naldoni, Yu Zhang, M. Petr, Ondřej Tomanec, J. Filip, M. Otyepka, P. Hobza, R. Zbořil (2021)
Carboxylated Graphene for Radical-Assisted Ultra-Trace-Level Water Treatment and Noble Metal Recovery.ACS nano
-
Nobuhiro Ogihara, Tomomi Yasuda, Y. Kishida, T. Ohsuna, Kaito Miyamoto, N. Ohba (2014)
Organic dicarboxylate negative electrode materials with remarkably small strain for high-voltage bipolar batteries.Angewandte Chemie, 53 43
-
Siegfried Eigler, A. Hirsch (2014)
Chemistry with graphene and graphene oxide-challenges for synthetic chemists.Angewandte Chemie, 53 30
-
Chao Luo, Xiao Ji, S. Hou, Nico Eidson, Xiulin Fan, Yujia Liang, T. Deng, Jianjun Jiang, Chunsheng Wang (2018)
Azo Compounds Derived from Electrochemical Reduction of Nitro Compounds for High Performance Li‐Ion BatteriesAdvanced Materials, 30
-
Yu Zhang, Shiqi Liu, Yongjun Ji, Jianmin Ma, Haijun Yu (2018)
Emerging Nonaqueous Aluminum‐Ion Batteries: Challenges, Status, and PerspectivesAdvanced Materials, 30
-
A. Lenarda, A. Bakandritsos, M. Bevilacqua, C. Tavagnacco, M. Melchionna, A. Naldoni, Tomáš Steklý, M. Otyepka, R. Zbořil, P. Fornasiero (2019)
Selective Functionalization Blended with Scaffold Conductivity in Graphene Acid Promotes H2O2 Electrochemical SensingACS Omega, 4
-
Yang Xu, Minghong Zhou, Y. Lei (2017)
Organic materials for rechargeable sodium-ion batteriesMaterials Today, 21
-
D. Williams, J. Byrne, J. Driscoll (1969)
A High Energy Density Lithium/Dichloroisocyanuric Acid Battery SystemJournal of The Electrochemical Society, 116
-
Gaole Dai, Yan He, Zhihui Niu, P. He, Changkun Zhang, Yu Zhao, Xiaohong Zhang, Haoshen Zhou (2019)
A Dual-Ion Organic Symmetric Battery Constructed from Phenazine-Based Artificial Bipolar Molecules.Angewandte Chemie
-
G. Blomgren (2017)
The development and future of lithium ion batteriesJournal of The Electrochemical Society, 164
-
Bryony McAllister, Luke Kyne, Tyler Schon, D. Seferos (2019)
Potential for Disruption with Organic Magnesium-Ion BatteriesJoule
-
Yan Wang, Linze Lv, R. Guo, Weibo Huang, Wei Wang, Haoyue Chen, Honghe Zheng (2020)
The effect of carboxyl group position of pyrazinedicarboxylic acid on electrochemical performances in lithium ion batteries anodeJournal of Power Sources, 473
-
A. Dehghani-Sanij, E. Tharumalingam, M. Dusseault, R. Fraser (2019)
Study of energy storage systems and environmental challenges of batteriesRenewable and Sustainable Energy Reviews
-
Sha Z. (2019)
23019J. Mater. Chem. A, 7
-
Haegyeom Kim, Jae Kim, M. Bianchini, D. Seo, J. Rodríguez-García, G. Ceder (2018)
Recent Progress and Perspective in Electrode Materials for K‐Ion BatteriesAdvanced Energy Materials, 8
-
Chao Luo, O. Borodin, Xiao Ji, S. Hou, Karen Gaskell, Xiulin Fan, Ji Chen, T. Deng, Ruixing Wang, Jianjun Jiang, Chunsheng Wang (2018)
Azo compounds as a family of organic electrode materials for alkali-ion batteriesProceedings of the National Academy of Sciences, 115
-
Li X. (2018)
3189Chem. Soc. Rev., 47
-
S. Grimme (2006)
Semiempirical GGA‐type density functional constructed with a long‐range dispersion correctionJournal of Computational Chemistry, 27
-
Shiwen Wang, Lijiang Wang, Kai Zhang, Zhiqiang Zhu, Zhanliang Tao, Jun Chen (2013)
Organic Li4C8H2O6 nanosheets for lithium-ion batteries.Nano letters, 13 9
-
Jianwei Wang, Hongyang Zhao, Letian Xu, Yaodong Yang, G. He, Yaping Du (2018)
Three-Electron Redox Enabled Dithiocarboxylate Electrode for Superior Lithium Storage Performance.ACS applied materials & interfaces, 10 41
-
Matthew Li, Jun Lu, Zhongwei Chen, K. Amine (2018)
30 Years of Lithium‐Ion BatteriesAdvanced Materials, 30
-
Yan Wang, Yonghong Deng, Q. Qu, Xueying Zheng, Jingyu Zhang, Gao Liu, V. Battaglia, Honghe Zheng (2017)
Ultrahigh-Capacity Organic Anode with High-Rate Capability and Long Cycle Life for Lithium-Ion BatteriesACS energy letters, 2
-
Yong Lu, Jun Chen (2020)
Prospects of organic electrode materials for practical lithium batteriesNature Reviews Chemistry, 4
-
Perdew J. P. (1996)
3865Phys. Rev. Lett., 77
-
Zhang Q. (2020)
3806Chem. Soc. Rev., 49
-
Veronika Šedajová, P. Jakubec, A. Bakandritsos, V. Ranc, M. Otyepka (2020)
New Limits for Stability of Supercapacitor Electrode Material Based on Graphene DerivativeNanomaterials, 10
-
Y. Gogotsi, R. Penner (2018)
Energy Storage in Nanomaterials - Capacitive, Pseudocapacitive, or Battery-like?ACS nano, 12 3
-
Guoxiu Wang, Xiaoping Shen, J. Yao, Jinsoo Park (2009)
Graphene nanosheets for enhanced lithium storage in lithium ion batteriesCarbon, 47
-
Bingyige Pan, Cheng-Min Hu, L. Bai, Fu-Gang Zhao, Lei Dong, B. Zuo, Wei Zhang, Xinping Wang, Wei‐Shi Li (2019)
Basicity‐Engineered Graphite Fluoride Functionalization and Beyond: An Unusual Reaction between Ultraweak Nucleophile and Ultrastrong CF BondsAdvanced Functional Materials, 29
-
Duan Bin, Wangchen Huo, Yingbo Yuan, Jianhang Huang, Yao Liu, Yuxin Zhang, F. Dong, Yonggang Wang, Yongyao Xia (2020)
Organic-Inorganic-Induced Polymer Intercalation into Layered Composites for Aqueous Zinc-Ion BatteryChem
-
Eng A. Y. S. (2015)
20256Nanoscale, 7
-
Yasuda T. (2014)
11565Chem. Commun., 50
-
Dreyer D. R. (2014)
5288Chem. Soc. Rev., 43
-
Yue Yang, E. Okonkwo, E. Okonkwo, Guoyong Huang, Shengming Xu, Wei Sun, Yinghe He (2021)
On the sustainability of lithium ion battery industry – A review and perspectiveEnergy Storage Materials, 36
-
S. Visco, L. Dejonghe (1988)
Ionic conductivity of organosulfur melts for advanced storage electrodesJournal of The Electrochemical Society, 135
-
Zhao F.‐G. (2019)
3353J. Mater. Chem. A, 7
- Publisher
- Wiley
- Copyright
- © 2022 Wiley‐VCH GmbH
- ISSN
- 1614-6832
- eISSN
- 1614-6840
- DOI
- 10.1002/aenm.202103010
- Publisher site
- See Article on Publisher Site
Abstract
Journal
Advanced Energy Materials – Wiley
Published: Feb 1, 2022
Keywords: carboxylation; graphene acid; lithium‐ion batteries; organic anodes