Access the full text.
Sign up today, get DeepDyve free for 14 days.
Wenxuan Zhang, Chengjian Xu, Wenzhi He, Guangming Li, Ju-wen Huang (2017)
A review on management of spent lithium ion batteries and strategy for resource recycling of all components from themWaste Management & Research, 36
B. Ratnakumar, G. Nagasubramanian, S. Stefano, C. Bankston (1992)
Kinetics of intercalation of lithium into NbSe3 and TiS2 cathodesJournal of The Electrochemical Society, 139
Victor Pushparaj, M. Shaijumon, Ashavani Kumar, Saravanababu Murugesan, L. Ci, R. Vajtai, R. Linhardt, O. Nalamasu, P. Ajayan (2007)
Flexible energy storage devices based on nanocomposite paperProceedings of the National Academy of Sciences, 104
J. Dunn, L. Gaines, M. Barnes, Michael Wang, J. Sullivan (2014)
Material and energy flows in the materials production, assembly, and end-of-life stages of the automotive lithium-ion battery life cycle
P. Poizot, S. Laruelle, S. Grugeon, L. Dupont, J. Tarascon (2000)
Nano-sized transition-metal oxides as negative-electrode materials for lithium-ion batteriesNature, 407
Yongming Chen, Nannan Liu, Ya-fei Jie, Fang Hu, Yun Li, B. Wilson, Yan Xi, Y. Lai, Shenghai Yang (2019)
Toxicity Identification and Evolution Mechanism of Thermolysis-Driven Gas Emissions from Cathodes of Spent Lithium-Ion BatteriesACS Sustainable Chemistry & Engineering
Yusong Zhu, S. Xiao, Mei Li, Zhimin Chang, Faxing Wang, Jie Gao, Yishuo Wu (2015)
Natural macromolecule based carboxymethyl cellulose as a gel polymer electrolyte with adjustable porosity for lithium ion batteriesJournal of Power Sources, 288
A. Ogale, Meng Zhang, Jing Jin (2016)
Recent advances in carbon fibers derived from biobased precursorsJournal of Applied Polymer Science, 133
Hehe Nie, Long-Yang Xu, Dawei Song, Jishun Song, Xixi Shi, Xiaoqing Wang, Lianqi Zhang, Zhihao Yuan (2015)
LiCoO2: recycling from spent batteries and regeneration with solid state synthesisGreen Chemistry, 17
Xiaosi Zhou, Ya‐Xia Yin, A. Cao, L. Wan, Yu‐Guo Guo (2012)
Efficient 3D conducting networks built by graphene sheets and carbon nanoparticles for high-performance silicon anode.ACS applied materials & interfaces, 4 5
Suxi Wang, Liping Yang, L. Stubbs, Xu Li, Chaobin He (2013)
Lignin-derived fused electrospun carbon fibrous mats as high performance anode materials for lithium ion batteries.ACS applied materials & interfaces, 5 23
Laidong Zhou, K. Park, Xiaoqi Sun, F. Laler̀e, Torben Adermann, P. Hartmann, L. Nazar (2018)
Solvent-Engineered Design of Argyrodite Li6PS5X (X = Cl, Br, I) Solid Electrolytes with High Ionic ConductivityACS Energy Letters
Yongxiang Yang, Xiangqi Meng, Hongbin Cao, Xiao Lin, Chenming Liu, Yong Sun, Yi Zhang, Zhi Sun (2018)
Selective recovery of lithium from spent lithium iron phosphate batteries: a sustainable processGreen Chemistry, 20
Y. Idemoto, T. Hasegawa, N. Kitamura, Y. Uchimoto (2011)
Dependence of Thermodynamic Stability, Crystal and Electronic Structures and Battery Characteristic on Synthetic Condition and Li Content for LixMn0.5Ni0.5O2 as a Cathode Active Material of Li-Ion BatteryElectrochemistry, 79
O. Rios, S. Martha, M. McGuire, W. Tenhaeff, K. More, Claus Daniel, J. Nanda (2014)
Monolithic Composite Electrodes Comprising Silicon Nanoparticles Embedded in Lignin‐derived Carbon Fibers for Lithium‐Ion BatteriesEnergy technology, 2
Sangsik Jeong, N. Böckenfeld, A. Balducci, M. Winter, S. Passerini (2012)
Natural cellulose as binder for lithium battery electrodesJournal of Power Sources, 199
Caspar Bruin-Dickason, Serhiy Budnyk, J. Pia̧tek, I. Jenei, T. Budnyak, Adam Slabon (2020)
Valorisation of used lithium-ion batteries into nanostructured catalysts for green hydrogen from boranesMaterials Advances
M. Drews, S. Tepner, P. Haberzettl, H. Gentischer, W. Beichel, M. Breitwieser, S. Vierrath, D. Biro (2020)
Towards 3D-lithium ion microbatteries based on silicon/graphite blend anodes using a dispenser printing techniqueRSC Advances, 10
Nannan Guo, Min Li, Xingkai Sun, Feng Wang, Ru Yang (2017)
Enzymatic hydrolysis lignin derived hierarchical porous carbon for supercapacitors in ionic liquids with high power and energy densitiesGreen Chemistry, 19
P. Barpanda, M. Ati, B. Melot, G. Rousse, J. Chotard, M. Doublet, M. Sougrati, S. Corr, J. Jumas, J. Tarascon, J. Tarascon (2011)
A 3.90 V iron-based fluorosulphate material for lithium-ion batteries crystallizing in the triplite structure.Nature materials, 10 10
X. Zhao, G. Cao, C. Lv, Lehao Zhang, Shenghui Hu, T. Zhu, B. Zhou (2001)
Electrochemical properties of some Sb or Te based alloys for candidate anode materials of lithium-ion batteriesJournal of Alloys and Compounds, 315
Nadir Recham, J. Chotard, L. Dupont, C. Delacourt, W. Walker, W. Walker, M. Armand, J. Tarascon, J. Tarascon (2010)
A 3.6 V lithium-based fluorosulphate insertion positive electrode for lithium-ion batteries.Nature materials, 9 1
H. Gomaa, M. Shenashen, H. Yamaguchi, A. Alamoudi, S. El‐Safty (2018)
Extraction and recovery of Co2+ ions from spent lithium-ion batteries using hierarchical mesosponge γ-Al2O3 monolith extractorsGreen Chemistry, 20
S. Freunberger, Yuhui Chen, N. Drewett, L. Hardwick, F. Bardé, P. Bruce (2011)
The lithium-oxygen battery with ether-based electrolytes.Angewandte Chemie, 50 37
Yong‐Sheng Hu, Yu‐Guo Guo, R. Dominko, M. Gaberšček, J. Jamnik, J. Maier (2007)
Improved Electrode Performance of Porous LiFePO4 Using RuO2 as an Oxidic Nanoscale InterconnectAdvanced Materials, 19
Ming Zhu, J. Lan, Chunyu Tan, G. Sui, Xiaoping Yang (2016)
Degradable cellulose acetate/poly-L-lactic acid/halloysite nanotube composite nanofiber membranes with outstanding performance for gel polymer electrolytesJournal of Materials Chemistry, 4
N. Yabuuchi, Y. Makimura, T. Ohzuku (2007)
Solid-State Chemistry and Electrochemistry of LiCo1 ∕ 3Ni1 ∕ 3Mn1 ∕ 3O2 for Advanced Lithium-Ion Batteries III. Rechargeable Capacity and CycleabilityJournal of The Electrochemical Society, 154
T. Kawamura, A. Kimura, M. Egashira, S. Okada, J. Yamaki (2002)
Thermal stability of alkyl carbonate mixed-solvent electrolytes for lithium ion cellsJournal of Power Sources, 104
D. Aurbach, B. McCloskey, L. Nazar, P. Bruce (2016)
Advances in understanding mechanisms underpinning lithium–air batteriesNature Energy, 1
Hao Jia, Na Sun, M. Dirican, Ya Li, Chen Chen, Pei Zhu, Chaoyi Yan, Jun Zang, Jiansheng Guo, Jinsong Tao, Jiasheng Wang, Fangcheng Tang, Xiangwu Zhang (2018)
Electrospun Kraft Lignin/Cellulose Acetate-Derived Nanocarbon Network as an Anode for High-Performance Sodium-Ion Batteries.ACS applied materials & interfaces, 10 51
Xu Wang, Qiu Haijun, Haolin Liu, Penghui Shi, Jinchen Fan, Yulin Min, Qunjie Xu (2018)
Recycling application of waste Li–MnO2 batteries as efficient catalysts based on electrochemical lithiation to improve catalytic activityGreen Chemistry, 20
J. Wolfenstine, J. Allen (2004)
LiNiPO4-LiCoPO4 solid solutions as cathodesJournal of Power Sources, 136
M. Doeff, J. Wilcox, R. Kostecki, Grace Lau (2006)
Optimization of Carbon Coatings on LiFePO4Journal of Power Sources, 163
B. Rao, R. Francis, H. Christopher (1977)
Lithium‐Aluminum ElectrodeJournal of The Electrochemical Society, 124
Gavin Harper, R. Sommerville, E. Kendrick, L. Driscoll, P. Slater, R. Stolkin, A. Walton, Paul Christensen, O. Heidrich, S. Lambert, A. Abbott, Karl Ryder, L. Gaines, P. Anderson (2019)
Recycling lithium-ion batteries from electric vehiclesNature, 575
K. Amine, I. Belharouak, Zonghai Chen, T. Tran, Hiroyuki Yumoto, N. Ota, Seung‐Taek Myung, Yang‐Kook Sun (2010)
Nanostructured Anode Material for High‐Power Battery System in Electric VehiclesAdvanced Materials, 22
Huayi Yin, P. Xing (2019)
Pyrometallurgical Routes for the Recycling of Spent Lithium-Ion BatteriesRecycling of Spent Lithium-Ion Batteries
E. Othman, A. Ham, H. Miedema, S. Kersten (2020)
Recovery of metals from spent lithium-ion batteries using ionic liquid [P8888][Oleate]Separation and Purification Technology
Joseph Sloop (2017)
Advances in the Preparation of Fluorinated Isoquinolines: A Decade of ProgressJournal of Chemistry, 2017
Candace Chan, H. Peng, Gao Liu, K. Mcilwrath, Xiao Zhang, R. Huggins, Yi Cui (2008)
High-performance lithium battery anodes using silicon nanowires.Nature nanotechnology, 3 1
Yongseon Kim (2012)
Lithium nickel cobalt manganese oxide synthesized using alkali chloride flux: morphology and performance as a cathode material for lithium ion batteries.ACS applied materials & interfaces, 4 5
Soochan Kim, M. Cho, Youngkwan Lee (2020)
Multifunctional Chitosan–rGO Network Binder for Enhancing the Cycle Stability of Li–S BatteriesAdvanced Functional Materials, 30
Adrián Moreno, M. Sipponen (2020)
Lignin-based smart materials: a roadmap to processing and synthesis for current and future applicationsMaterials horizons, 7
Dongdong Wang, Zhongqiang Shan, Jianhua Tian, Zheng Chen (2019)
Understanding the formation of ultrathin mesoporous Li4Ti5O12 nanosheets and their application in high-rate, long-life lithium-ion anodes.Nanoscale, 11 2
D. Larcher, J. Tarascon (2015)
Towards greener and more sustainable batteries for electrical energy storage.Nature chemistry, 7 1
Wei Fang, Sheng Yang, Xiluan Wang, T. Yuan, R. Sun (2017)
Manufacture and application of lignin-based carbon fibers (LCFs) and lignin-based carbon nanofibers (LCNFs)Green Chemistry, 19
Rajendra Kurapati, J. Russier, M. Squillaci, E. Treossi, C. Ménard‐Moyon, A. Rio-Castillo, E. Vázquez, P. Samorí, V. Palermo, A. Bianco (2015)
Dispersibility-Dependent Biodegradation of Graphene Oxide by Myeloperoxidase.Small, 11 32
Kang-Xuan Liu, Quanyin Tan, Lili Liu, Jinhui Li (2019)
Acid-Free and Selective Extraction of Lithium from Spent Lithium Iron Phosphate Batteries via a Mechanochemically Induced Isomorphic Substitution.Environmental science & technology
Jan Broek, Semih Afyon, J. Rupp (2016)
Interface‐Engineered All‐Solid‐State Li‐Ion Batteries Based on Garnet‐Type Fast Li+ ConductorsAdvanced Energy Materials, 6
N. Yabuuchi, T. Ohzuku (2003)
Novel lithium insertion material of LiCo1/3Ni1/3Mn1/3O2 for advanced lithium-ion batteriesJournal of Power Sources, 119
L. Brückner, J. Frank, T. Elwert (2020)
Industrial Recycling of Lithium-Ion Batteries—A Critical Review of Metallurgical Process RoutesOpen Access Journal, 10
M. Roldán-Ruiz, M. Ferrer, M. Gutiérrez, F. Monte (2020)
Highly Efficient p-Toluenesulfonic Acid-Based Deep-Eutectic Solvents for Cathode Recycling of Li-Ion BatteriesACS Sustainable Chemistry & Engineering, 8
S. Murugesan, Justin Harris, B. Korgel, K. Stevenson (2012)
Copper-Coated Amorphous Silicon Particles as an Anode Material for Lithium-Ion BatteriesChemistry of Materials, 24
S. Yamaguchi, H. Asahina, Karen Hirasawa, Tomohiro Sato, S. Mori (1998)
SEI Film Formation On Graphite Anode Surfaces In Lithium Ion BatteryMolecular Crystals and Liquid Crystals, 322
Huajun Zhao, Qiujun Wang, Yonghong Deng, Qiao Shi, Yong Qian, B. Wang, Lei Lü, X. Qiu (2016)
Preparation of renewable lignin-derived nitrogen-doped carbon nanospheres as anodes for lithium-ion batteriesRSC Advances, 6
Ceren Zor, M. Somer, Semih Afyon (2018)
LiMg0.1Co0.9BO3 as a positive electrode material for Li-ion batteriesRSC Advances, 8
(2010)
Foudraz, US 7820317
Donghan Kim, Jinsub Lim, V. Mathew, Bon‐Ryul Koo, Y. Paik, Docheon Ahn, Seung‐Min Paek, Jaekook Kim (2012)
Low-cost LiFePO4 using Fe metal precursorJournal of Materials Chemistry, 22
Jie Xiao, Xilin Chen, P. Sushko, M. Sushko, L. Kovarik, Jijun Feng, Z. Deng, Jianming Zheng, G. Graff, Z. Nie, D. Choi, Jun Liu, Ji‐Guang Zhang, M. Whittingham (2012)
High‐Performance LiNi0.5Mn1.5O4 Spinel Controlled by Mn3+ Concentration and Site DisorderAdvanced Materials, 24
(1946)
Polymers 2019
Q. Ma, Hongwei Xie, Jiakang Qu, Zhuqing Zhao, Beilei Zhang, Q. Song, P. Xing, Huayi Yin (2020)
Tailoring the Polymer-Derived Carbon Encapsulated Silicon Nanoparticles for High-Performance Lithium-Ion Battery Anodes, 3
S. Jung, J. Choi, Young‐Kyu Han (2012)
Anisotropic volume expansion of crystalline silicon during electrochemical lithium insertion: an atomic level rationale.Nano letters, 12 10
P. Barpanda, S. Nishimura, A. Yamada (2012)
High‐Voltage Pyrophosphate CathodesAdvanced Energy Materials, 2
Anubhav Jain, G. Hautier, Charles Moore, Byoungwoo Kang, Jinhyuk Lee, Hailong Chen, Nancy Twu, G. Ceder (2012)
A Computational Investigation of Li9M3(P2O7)3(PO4)2 (M = V, Mo) as Cathodes for Li Ion BatteriesJournal of The Electrochemical Society, 159
E. Peled, D. Golodnitsky, G. Ardel (1997)
Advanced Model for Solid Electrolyte Interphase Electrodes in Liquid and Polymer ElectrolytesJournal of The Electrochemical Society, 144
B. Boukamp, G. Lesh, R. Huggins (1981)
All‐Solid Lithium Electrodes with Mixed‐Conductor MatrixJournal of The Electrochemical Society, 128
Xiaotu Ma, Mengyuan Chen, Bing-huang Chen, Zifei Meng, Yan Wang (2019)
High-Performance Graphite Recovered from Spent Lithium-Ion BatteriesACS Sustainable Chemistry & Engineering
Sung Park, H. Shin, W. Lee, W. Cho, H. Jang (2008)
Improvement of capacity fading resistance of LiMn2O4 by amphoteric oxidesJournal of Power Sources, 180
Semih Afyon, F. Krumeich, J. Rupp (2015)
A shortcut to garnet-type fast Li-ion conductors for all-solid state batteriesJournal of Materials Chemistry, 3
Hua Yang, Zhou Sida, Yi Huang, Xinhua Liu, Heping Ling, Zhou Xin'an, Cheng Zhang, Shichun Yang (2020)
Sustainable value chain of retired lithium-ion batteries for electric vehiclesJournal of Power Sources, 478
Gregg Kotchey, B. Allen, H. Vedala, N. Yanamala, A. Kapralov, Y. Tyurina, J. Klein-Seetharaman, V. Kagan, A. Star (2011)
The enzymatic oxidation of graphene oxide.ACS nano, 5 3
Hun‐Gi Jung, J. Hassoun, Jin-Bum Park, Yang‐Kook Sun, B. Scrosati (2012)
An improved high-performance lithium-air battery.Nature chemistry, 4 7
A. Poyraz, Jianping Huang, Shaobo Cheng, D. Bock, Lijun Wu, Yimei Zhu, A. Marschilok, K. Takeuchi, E. Takeuchi (2016)
Effective recycling of manganese oxide cathodes for lithium based batteriesGreen Chemistry, 18
P. Anastas (2020)
Circularity. What’s the Problem?ACS Sustainable Chemistry & Engineering, 8
Ireneusz Szewczyk, Anna Rokicińska, M. Michalik, Jianhong Chen, A. Jaworski, R. Aleksis, A. Pell, N. Hedin, Adam Slabon, P. Kuśtrowski (2020)
Electrochemical Denitrification and Oxidative Dehydrogenation of Ethylbenzene over N-doped Mesoporous Carbon: Atomic Level Understanding of Catalytic Activity by 15N NMR SpectroscopyChemistry of Materials, 32
Zhaohui Wang, Yong-Hyeok Lee, Sang‐Woo Kim, Ji-Young Seo, Sang‐young Lee, L. Nyholm (2020)
Why Cellulose‐Based Electrochemical Energy Storage Devices?Advanced Materials, 33
Wanshuang Liu, Chenyang Zhao, Rui Zhou, Dan Zhou, Zhaolin Liu, Xuehong Lu (2015)
Lignin-assisted exfoliation of molybdenum disulfide in aqueous media and its application in lithium ion batteries.Nanoscale, 7 21
C. Ghimbeu, Biao Zhang, A. Yuso, Bénédicte Réty, J. Tarascon (2019)
Valorizing low cost and renewable lignin as hard carbon for Na-ion batteries: Impact of lignin gradeCarbon
Z. Fu, Ying Wang, X. Yue, and Zhao, Q. Qin (2004)
Electrochemical Reactions of Lithium with Transition Metal Nitride ElectrodesJournal of Physical Chemistry B, 108
Sukeun Yoon, Chen Liao, Xiao‐Guang Sun, C. Bridges, R. Unocic, J. Nanda, S. Dai, M. Paranthaman (2012)
Conductive surface modification of LiFePO4 with nitrogen-doped carbon layers for lithium-ion batteriesJournal of Materials Chemistry, 22
Fuminori Mizuno, Shinji Nakanishi, Yukinari Kotani, Shoji Yokoishi, H. Iba (2010)
Rechargeable Li-Air Batteries with Carbonate-Based Liquid ElectrolytesElectrochemistry, 78
R. Kanno, M. Murayama, K. Sakamoto (2002)
New Lithium Solid Electrolytes, Thio-Lisicon Materials Design Concept and Application to Solid State Battery
A. Padhi, K. Nanjundaswamy, J. Goodenough (1997)
Phospho‐olivines as Positive‐Electrode Materials for Rechargeable Lithium BatteriesJournal of The Electrochemical Society, 144
(2008)
COMMISSION OF THE EUROPEAN COMMUNITIES Brussels, COMMUNICATION FROM THE COMMISSION TO THE EUROPEAN PARLIAMENT, THE COUNCIL, THE EUROPEAN ECONOMIC AND SOCIAL COMMITTEE AND THE COMMITTEE OF REGIONS POLICY PLAN ON ASYLUM AN INTEGRATED APPROACH TO PROTECTION ACROSS THE EU
S. Leijonmarck, A. Cornell, G. Lindbergh, L. Wågberg (2013)
Single-paper flexible Li-ion battery cells through a paper-making process based on nano-fibrillated celluloseJournal of Materials Chemistry, 1
Semih Afyon, Dipan Kundu, F. Krumeich, R. Nesper (2013)
Nano LiMnBO3, a high-capacity cathode material for Li-ion batteriesJournal of Power Sources, 224
Semih Afyon, K. Kravchyk, Shutao Wang, J. Broek, C. Hänsel, M. Kovalenko, J. Rupp (2019)
Building better all-solid-state batteries with Li-garnet solid electrolytes and metalloid anodesJournal of Materials Chemistry A
T. Budnyak, Adam Slabon, M. Sipponen (2020)
Lignin–Inorganic Interfaces: Chemistry and Applications from Adsorbents to Catalysts and Energy Storage MaterialsChemsuschem, 13
Yang Huang, Zixia Lin, M. Zheng, Tianhe Wang, Jiazhi Yang, Fanshu Yuan, Xiaoyu Lu, Lin Liu, Dongping Sun (2016)
Amorphous Fe 2 O 3 nanoshells coated on carbonized bacterial cellulose nanofibers as a flexible anode for high-performance lithium ion batteriesJournal of Power Sources, 307
L. Kavanagh, J. Keohane, Guiomar Cabellos, Andrew Lloyd, J. Cleary (2018)
Induced Plant Accumulation of Lithium, 8
Y. Iriyama, Tomonori Kako, C. Yada, T. Abe, Z. Ogumi (2005)
Charge transfer reaction at the lithium phosphorus oxynitride glass electrolyte/lithium cobalt oxide thin film interfaceSolid State Ionics, 176
Gustavo Michelini, R. Moraes, R. Cunha, Janaina Costa, A. Ometto (2017)
From Linear to Circular Economy: PSS Conducting the TransitionProcedia CIRP, 64
Elena Mossali, N. Picone, Luca Gentilini, Olga Rodrìguez, J. Perez, M. Colledani (2020)
Lithium-ion batteries towards circular economy: A literature review of opportunities and issues of recycling treatments.Journal of environmental management, 264
Donghan Kim, Sun‐Ho Kang, M. Balasubramanian, Christopher Johnson (2010)
High-energy and high-power Li-rich nickel manganese oxide electrode materialsElectrochemistry Communications, 12
M. Palacín (2009)
Recent advances in rechargeable battery materials: a chemist's perspective.Chemical Society reviews, 38 9
Semih Afyon, F. Krumeich, C. Mensing, A. Borgschulte, R. Nesper (2014)
New High Capacity Cathode Materials for Rechargeable Li-ion Batteries: Vanadate-Borate GlassesScientific Reports, 4
Christopher Schauerman, Matthew Ganter, G. Gaustad, Callie Babbitt, R. Raffaelle, B. Landi (2012)
Recycling single-wall carbon nanotube anodes from lithium ion batteriesJournal of Materials Chemistry, 22
Xiang-pan Chen, Jiazhu Li, Duozhi Kang, T. Zhou, Hongrui Ma (2019)
A novel closed-loop process for the simultaneous recovery of valuable metals and iron from a mixed type of spent lithium-ion batteriesGreen Chemistry
L. Shiqi, Tong Mou, Guofeng Ren, J. Warzywoda, Zidong Wei, Bin Wang, Zhaoyang Fan (2017)
Gel based sulfur cathodes with a high sulfur content and large mass loading for high-performance lithium–sulfur batteriesJournal of Materials Chemistry, 5
F. Maio, P. Rem, K. Baldé, M. Polder (2017)
Measuring resource efficiency and circular economy: A market value approachResources Conservation and Recycling, 122
M. Palacín (1979)
New British Standards, 16
Feng Wu, Guoqiang Tan, Renjie Chen, Li Li, Jingjie Xiang, Yuelei Zheng (2011)
Novel Solid‐State Li/LiFePO4 Battery Configuration with a Ternary Nanocomposite Electrolyte for Practical ApplicationsAdvanced Materials, 23
Roland Jung, M. Metzger, F. Maglia, C. Stinner, H. Gasteiger (2017)
Chemical versus Electrochemical Electrolyte Oxidation on NMC111, NMC622, NMC811, LNMO, and Conductive Carbon.The journal of physical chemistry letters, 8 19
N. Pereira, L. Dupont, J. Tarascon, L. Klein, G. Amatucci (2003)
Electrochemistry of Cu3N with Lithium: A Complex System with Parallel ProcessesJournal of The Electrochemical Society, 150
Hyuntae Bae, Soo Hwang, Inseok Seo, Youngsik Kim (2016)
Electrochemical Lithium Recycling System toward Renewable and Sustainable Energy TechnologiesJournal of The Electrochemical Society, 163
Liang Zhou, Dongyuan Zhao, X. Lou (2012)
LiNi(0.5)Mn(1.5)O4 hollow structures as high-performance cathodes for lithium-ion batteries.Angewandte Chemie, 51 1
F. Habashi (2005)
A short history of hydrometallurgyHydrometallurgy, 79
Semih Afyon, M. Wörle, R. Nesper (2013)
A lithium-rich compound Li7Mn(BO3)3 containing Mn2+ in tetrahedral coordination: a cathode candidate for lithium-ion batteries.Angewandte Chemie, 52 48
Feng Zheng, M. Kotobuki, Shufeng Song, M. Lai, Li Lu (2018)
Review on solid electrolytes for all-solid-state lithium-ion batteriesJournal of Power Sources
J. Diekmann, C. Hanisch, Linus Froboese, Gerrit Schälicke, Thomas Loellhoeffel, Anne-Sophie Foelster, A. Kwade (2017)
Ecological Recycling of Lithium-Ion Batteries from Electric Vehicles with Focus on Mechanical ProcessesJournal of The Electrochemical Society, 164
J. Öhl, D. Horn, J. Zimmermann, R. Stauber, O. Gutfleisch (2019)
Efficient Process for Li-Ion Battery Recycling via Electrohydraulic FragmentationMaterials Science Forum, 959
Katsuya Hayashi, Y. Nemoto, S. Tobishima, J. Yamaki (1999)
Mixed solvent electrolyte for high voltage lithium metal secondary cellsElectrochimica Acta, 44
S. Kim, Y. Yoon, J. Ryu, Jeong Kim, Seulgi Ji, Wooseok Song, S. Myung, Jongsun Lim, Ha-Kyun Jung, S. Lee, Jiseok Lee, K. An (2019)
Recyclable High-Performance Polymer Electrolyte Based on Modified Methyl Cellulose-Lithium Trifluoromethanesulfonate Salt Composite for Sustainable Energy Systems.ChemSusChem
Jia Liu, Hong Yuan, X. Tao, Yeru Liang, Seung Yang, Jiaqi Huang, T. Yuan, M. Titirici, Qiang Zhang (2020)
Recent progress on biomass‐derived ecomaterials toward advanced rechargeable lithium batteries, 2
Zengyao Zhang, Shun Yi, Yuejia Wei, Huiyang Bian, Ruibin Wang, Yonggang Min (2019)
Lignin Nanoparticle-Coated Celgard Separator for High-Performance Lithium–Sulfur BatteriesPolymers, 11
(2019)
Recycling of Spent Lithium-Ion Batteries: Processing Methods and Environmental ImpactsRecycling of Spent Lithium-Ion Batteries
Xuelong Wang, Hungsui Lee, Huizeng Li, Xi Yang, Xuejie Huang (2010)
The Effects of Substituting Groups in Cyclic Carbonates for Stable SEI Formation on Graphite Anode of Lithium BatteriesElectrochemistry Communications, 12
Boming Yu, Aori Gele, Linping Wang (2018)
Iron oxide/lignin-based hollow carbon nanofibers nanocomposite as an application electrode materials for supercapacitors.International journal of biological macromolecules, 118 Pt A
V. Halysh, O. Sevastyanova, A. Riazanova, Bogdan Pasalskiy, T. Budnyak, M. Lindström, M. Кartel (2018)
Walnut shells as a potential low-cost lignocellulosic sorbent for dyes and metal ionsCellulose, 25
L. Tao, Zhengrui Xu, C. Kuai, Xuerong Zheng, Candace Wall, Chao Jiang, A. Esker, Zhifeng Zheng, Feng Lin (2020)
Flexible lignin carbon membranes with surface ozonolysis to host lean lithium metal anodes for nickel-rich layered oxide batteriesEnergy Storage Materials, 24
P. Anastas (2019)
Beyond Reductionist Thinking in Chemistry for SustainabilityTrends in Chemistry
Tao Liu, Shimei Sun, Weili Song, Xiaolin Sun, Quanhai Niu, Hui Liu, T. Ohsaka, Jianfei Wu (2018)
A lightweight and binder-free electrode enabled by lignin fibers@carbon-nanotubes and graphene for ultrastable lithium–sulfur batteriesJournal of Materials Chemistry, 6
A. Porvali, M. Aaltonen, Severi Ojanen, Omar Velazquez-Martinez, Emmi Eronen, Fupeng Liu, B. Wilson, Rodrigo Serna-Guerrero, M. Lundström (2019)
Mechanical and hydrometallurgical processes in HCl media for the recycling of valuable metals from Li-ion battery wasteResources, Conservation and Recycling
Tianyu Lei, Wei Chen, Weiqiang Lv, Jianwen Huang, Jian Zhu, Junwei Chu, Chaoyi Yan, Chunyan Wu, Yichao Yan, Weidong He, J. Xiong, Yanrong Li, Chenglin Yan, J. Goodenough, X. Duan (2018)
Inhibiting Polysulfide Shuttling with a Graphene Composite Separator for Highly Robust Lithium-Sulfur BatteriesJoule
Baicheng Weng, Fenghua Xu, M. Alcoutlabi, Yuanbing Mao, K. Lozano (2015)
Fibrous cellulose membrane mass produced via forcespinning® for lithium-ion battery separatorsCellulose, 22
R. Kostecki, F. Mclarnon (2004)
Local-probe studies of degradation of composite LiNi{sub 0.8}Co{sub 0.15}Al{sub 0.05}O{sub 2} cathodes in high-power lithium-ion cellsElectrochemical and Solid State Letters, 7
M. Zybert, Hubert Ronduda, A. Szczęsna, T. Trzeciak, A. Ostrowski, E. Żero, W. Wieczorek, W. Raróg-Pilecka, M. Marcinek (2020)
Different strategies of introduction of lithium ions into nickel‑manganese‑cobalt carbonate resulting in LiNi0.6Mn0.2Co0.2O2 (NMC622) cathode material for Li-ion batteriesSolid State Ionics, 348
E. Shembel’, I. Maksyuta, L. Neduzhko, A. Belosokhov, A. Naumenko, V. Rozhkov (1995)
Influence of the composition of lithium-based alloys, non-aqueous electrolytes and cycling conditions on the anode propertiesJournal of Power Sources, 54
Jie Sheng, Shuhua Tong, Zhibin He, Rendang Yang (2017)
Recent developments of cellulose materials for lithium-ion battery separatorsCellulose, 24
H. Gu, Dae-Kyoo Jun, G. Park, B. Jin, E. Jin (2007)
Nanosized LiFePO4 cathode materials for lithium ion batteries.Journal of nanoscience and nanotechnology, 7 11
Super-Charge Ion Battery
Y. Mottiar, Ruben Vanholme, W. Boerjan, J. Ralph, S. Mansfield (2016)
Designer lignins: harnessing the plasticity of lignification.Current opinion in biotechnology, 37
Huadong Yuan, Tiefeng Liu, Yujing Liu, J. Nai, Yao Wang, Wenkui Zhang, X. Tao (2019)
A review of biomass materials for advanced lithium–sulfur batteriesChemical Science, 10
Li Yang, Liu Yang, Guangri Xu, Qigao Feng, Yuanchao Li, Erqing Zhao, Jingjing Ma, Shumin Fan, Xiaobo Li (2019)
Separation and recovery of carbon powder in anodes from spent lithium-ion batteries to synthesize grapheneScientific Reports, 9
Yongqing Wang, L. Gu, Yu‐Guo Guo, Hong Li, Xiaoqing He, S. Tsukimoto, Y. Ikuhara, L. Wan (2012)
Rutile-TiO2 nanocoating for a high-rate Li4Ti5O12 anode of a lithium-ion battery.Journal of the American Chemical Society, 134 18
J. Dahn, R. Haering (1979)
Lithium intercalation in TiS2Materials Research Bulletin, 14
Jing Li, Hongyang Li, Xiaowei Ma, W. Stone, S. Glazier, E. Logan, E. Tonita, K. Gering, J. Dahn (2018)
Methyl Acetate as a Co-Solvent in NMC532/Graphite CellsJournal of The Electrochemical Society, 165
Hui-jie Zhou, S. Upreti, Natasha Chernova, G. Hautier, G. Ceder, M. Whittingham (2011)
Iron and Manganese Pyrophosphates as Cathodes for Lithium-Ion BatteriesChemistry of Materials, 23
Xiulei Ji, Kyu Lee, L. Nazar (2009)
A highly ordered nanostructured carbon-sulphur cathode for lithium-sulphur batteries.Nature materials, 8 6
Madhu Thakur, Steven Sinsabaugh, M. Isaacson, M. Wong, S. Biswal (2012)
Inexpensive method for producing macroporous silicon particulates (MPSPs) with pyrolyzed polyacrylonitrile for lithium ion batteriesScientific Reports, 2
Haifeng Wang, Y. Jang, Biying Huang, D. Sadoway, Y. Chiang (1999)
TEM Study of Electrochemical Cycling‐Induced Damage and Disorder in LiCoO2 Cathodes for Rechargeable Lithium BatteriesJournal of The Electrochemical Society, 146
S. Yin, Y. Rho, I. Swainson, L. Nazar (2006)
X-ray/Neutron Diffraction and Electrochemical Studies of Lithium De/Re-Intercalation in Li1-xCo1/3Ni1/3Mn1/3O2 (x = 0 → 1)Chemistry of Materials, 18
Taekyun Kim, Dae Kim, Hyunseok Lee, J. Kwon (2020)
Degenerate binomial coefficients and degenerate hypergeometric functionsAdvances in Difference Equations, 2020
B. Ammundsen, J. Paulsen (2001)
Novel Lithium‐Ion Cathode Materials Based on Layered Manganese OxidesAdvanced Materials, 13
Yang‐Kook Sun, Seung‐Taek Myung, Byung-Chun Park, J. Prakash, I. Belharouak, K. Amine (2009)
High-energy cathode material for long-life and safe lithium batteries.Nature materials, 8 4
M. Mohamedi, Daisuke Takahashi, T. Itoh, I. Uchida (2002)
Electrochemical stability of thin film LiMn2O4 cathode in organic electrolyte solutions with different compositions at 55 °CElectrochimica Acta, 47
Yang Shi, Gen Chen, Zheng Chen (2018)
Effective regeneration of LiCoO2 from spent lithium-ion batteries: a direct approach towards high-performance active particlesGreen Chemistry, 20
Yang Huang, M. Zheng, Zixia Lin, Bin Zhao, Songtao Zhang, Jiazhi Yang, Chunling Zhu, Z. Heng, Dongping Sun, Yi Shi (2015)
Flexible cathodes and multifunctional interlayers based on carbonized bacterial cellulose for high-performance lithium–sulfur batteriesJournal of Materials Chemistry, 3
Hyungsub Kim, Seongsu Lee, Young‐Uk Park, Haegyeom Kim, Jongsoon Kim, Seokwoo Jeon, K. Kang (2011)
Neutron and X-ray Diffraction Study of Pyrophosphate-Based Li2–xMP2O7 (M = Fe, Co) for Lithium Rechargeable Battery ElectrodesChemistry of Materials, 23
Hui Wu, Gerentt Chan, J. Choi, I. Ryu, Yan Yao, M. McDowell, S. Lee, A. Jackson, Yuan Yang, Liangbing Hu, Yi Cui (2012)
Stable cycling of double-walled silicon nanotube battery anodes through solid-electrolyte interphase control.Nature nanotechnology, 7 5
C. Delmas, F. Cherkaoui, A. Nadiri, P. Hagenmuller (1987)
A nasicon-type phase as intercalation electrode: NaTi2(PO4)3Materials Research Bulletin, 22
Yong Wang, Yong Li, S. Mao, Daixin Ye, Wen Liu, Ruiduo Guo, Zhenhe Feng, J. Kong, Jing-ying Xie (2019)
N-doped porous hard-carbon derived from recycled separators for efficient lithium-ion and sodium-ion batteriesSustainable Energy & Fuels
Yaprak Subaşı, M. Somer, M. Yagci, Adam Slabon, Semih Afyon (2020)
Surface modified TiO2/reduced graphite oxide nanocomposite anodes for lithium ion batteriesJournal of Solid State Electrochemistry, 24
J. Jeon, Libing Zhang, J. Lutkenhaus, D. Laskar, J. Lemmon, D. Choi, M. Nandasiri, Ali Hashmi, Jie Xu, R. Motkuri, C. Fernandez, Jian Liu, M. Tucker, P. McGrail, Bin Yang, S. Nune (2015)
Controlling porosity in lignin-derived nanoporous carbon for supercapacitor applications.ChemSusChem, 8 3
A. Robertson, A. Armstrong, P. Bruce (2001)
Layered LixMn1-yCoyO2 Intercalation ElectrodesInfluence of Ion Exchange on Capacity and Structure upon CyclingChemistry of Materials, 13
Septia Refly, O. Floweri, T. Mayangsari, A. Sumboja, S. Santosa, T. Ogi, Ferry Iskandar (2020)
Regeneration of LiNi1/3Co1/3Mn1/3O2 Cathode Active Materials from End-of-Life Lithium-Ion Batteries through Ascorbic Acid Leaching and Oxalic Acid Coprecipitation ProcessesACS Sustainable Chemistry & Engineering, 8
B. Cushing, J. Goodenough (2001)
Li2NaV2(PO4)3: A 3.7 V Lithium-Insertion Cathode with the Rhombohedral NASICON StructureIEEE Journal of Solid-state Circuits, 162
M. Thackeray, M. Mansuetto, J. Bates (1997)
Structural stability of LiMnO electrodes for lithium batteries
Zeheng Li, Nan Xu, Ying Sha, Jiapeng Ji, Tiefeng Liu, Lijing Yan, Yi He, Jun‐chao Zheng, M. Ling, Yingying Lu, C. Liang (2020)
Chitosan oligosaccharide derived polar host for lithium deposition in lithium metal batteriesSustainable Materials and Technologies, 24
M. Selvakumar, D. Bhat (2008)
LiClO4 doped cellulose acetate as biodegradable polymer electrolyte for supercapacitorsJournal of Applied Polymer Science, 110
Zhitong Li, Jian Zhao, Jiajin Nie, Shaowei Yao, Jing Wang, Xiaoxin Feng (2020)
Co3O4/NiO/C composites derived from zeolitic imidazolate frameworks (ZIFs) as high-performance anode materials for Li-ion batteriesJournal of Solid State Electrochemistry, 24
P. Bruce, S. Freunberger, L. Hardwick, J. Tarascon (2011)
Li-O2 and Li-S batteries with high energy storage.Nature materials, 11 1
Jiangping Chen, Qingwen Li, Jishun Song, Dawei Song, Lianqi Zhang, X. Shi (2016)
Environmentally friendly recycling and effective repairing of cathode powders from spent LiFePO4 batteriesGreen Chemistry, 18
Yuanlong Liu, D. Mu, Ruhong Li, Quanxin Ma, R. Zheng, Changsong Dai (2017)
Purification and Characterization of Reclaimed Electrolytes from Spent Lithium-Ion BatteriesJournal of Physical Chemistry C, 121
M. Culebras, H. Geaney, A. Beaucamp, Prathviraj Upadhyaya, E. Dalton, K. Ryan, M. Collins (2019)
Bio-derived carbon nanofibers from lignin as high performance Li-ion anode materials.ChemSusChem
C. Lyness, B. Delobel, A. Armstrong, P. Bruce (2007)
The lithium intercalation compound Li2CoSiO4 and its behaviour as a positive electrode for lithium batteriesChemical Communications
M. Uddin, P. Alaboina, Lifeng Zhang, Sung-Jin Cho (2017)
A low-cost, environment-friendly lignin-polyvinyl alcohol nanofiber separator using a water-based method for safer and faster lithium-ion batteriesMaterials Science and Engineering B-advanced Functional Solid-state Materials, 223
Xiaohong Zheng, Zewen Zhu, Xiao Lin, Yi Zhang, Yi He, Hongbin Cao, Zhi Sun (2018)
A Mini-Review on Metal Recycling from Spent Lithium Ion BatteriesEngineering
F. Jiang, Lei Yin, Qing-chun Yu, Chunyan Zhong, Junliang Zhang (2015)
Bacterial cellulose nanofibrous membrane as thermal stable separator for lithium-ion batteriesJournal of Power Sources, 279
N. Kumagai, K. Tanno, T. Nakajima, N. Watanabe (1983)
Structural changes of Nb2O5 and V2O5 as rechargeable cathodes for lithium batteryElectrochimica Acta, 28
Lu Wang, Zdenek Sofer, M. Pumera (2020)
Will Any Crap We Put into Graphene Increase Its Electrocatalytic Effect?ACS nano
Florian Wächter, F. Krumeich, R. Nesper (2014)
Simultaneous carbon coating and lithiation of oxides by contact reaction.Chemistry, 20 18
Feng Chen, Wen-Jie Zhou, Hongfei Yao, P. Fan, Jintao Yang, Zhengdong Fei, Mingqiang Zhong (2013)
Self-assembly of NiO nanoparticles in lignin-derived mesoporous carbons for supercapacitor applicationsGreen Chemistry, 15
V. Dall’Asta, V. Berbenni, P. Mustarelli, Davide Ravelli, C. Samorì, E. Quartarone (2017)
A biomass-derived polyhydroxyalkanoate biopolymer as safe and environmental-friendly skeleton in highly efficient gel electrolytes for lithium batteriesElectrochimica Acta, 247
C. Julien, G. Nazri, A. Rougier (2000)
Electrochemical performances of layered LiM1−yMy′O2 (M=Ni, Co; M′=Mg, Al, B) oxides in lithium batteriesSolid State Ionics, 135
Cheng Yang, Jialiang Zhang, Zhihe Cao, Qi Jing, Yong-qiang Chen, Chengya Wang (2020)
Sustainable and Facile Process for Lithium Recovery from Spent LiNixCoyMnzO2 Cathode Materials via Selective Sulfation with Ammonium SulfateACS Sustainable Chemistry & Engineering
T. Ohzuku, A. Ueda (1994)
Solid‐State Redox Reactions of LiCoO2 (R3̅m) for 4 Volt Secondary Lithium CellsJournal of The Electrochemical Society, 141
T. Chen, Qinglin Zhang, Jiagang Xu, Jie Pan, Yang-Tse Cheng (2016)
Binder-free lithium ion battery electrodes made of silicon and pyrolized ligninRSC Advances, 6
J. Pia̧tek, Caspar Bruin-Dickason, A. Jaworski, Jianhong Chen, T. Budnyak, Adam Slabon (2020)
Glycine-functionalized silica as sorbent for cobalt(II) and nickel(II) recoveryApplied Surface Science, 530
Mai Tran, M. Rodrigues, Keiko Kato, G. Babu, P. Ajayan (2019)
Deep eutectic solvents for cathode recycling of Li-ion batteriesNature Energy, 4
Omar Velazquez-Martinez, Johanna Valio, A. Santasalo-Aarnio, M. Reuter, Rodrigo Serna-Guerrero (2019)
A Critical Review of Lithium-Ion Battery Recycling Processes from a Circular Economy PerspectiveBatteries
T. Chen, Qinglin Zhang, Jie Pan, Jiagang Xu, Yiyang Liu, Mohanad Al-Shroofy, Yang-Tse Cheng (2016)
Low-Temperature Treated Lignin as Both Binder and Conductive Additive for Silicon Nanoparticle Composite Electrodes in Lithium-Ion Batteries.ACS applied materials & interfaces, 8 47
L. Campanella, G. Pistoia (1971)
MoO/sub 3/: a new electrode material for nonaqueous secondary battery applicationsJournal of The Electrochemical Society, 118
Hao‐Jie Liang, Bao-Hua Hou, Wenhao Li, Qiu‐Li Ning, Xu Yang, Zhenyi Gu, Xue-Jiao Nie, Guang Wang, Xing-long Wu (2019)
Staging Na/K-ion de-/intercalation of graphite retrieved from spent Li-ion batteries: in operando X-ray diffraction studies and an advanced anode material for Na/K-ion batteriesEnergy & Environmental Science
C. Hanisch, Thomas Loellhoeffel, J. Diekmann, K. Markley, K. Markley, Wolfgang Haselrieder, A. Kwade (2015)
Recycling of lithium-ion batteries: a novel method to separate coating and foil of electrodesJournal of Cleaner Production, 108
E. Endo, T. Yasuda, A. Kita, K. Yamaura, Koji Sekai (2000)
A LiCoO2 cathode modified by plasma chemical vapor deposition for higher voltage performanceJournal of The Electrochemical Society, 147
Chang-Qi Ma, Zhengyi Li, Junjing Li, Qingchao Fan, Liqian Wu, Jingli Shi, Yan Song (2018)
Lignin-based hierarchical porous carbon nanofiber films with superior performance in supercapacitorsApplied Surface Science
Sophia Kalantzakos (2020)
The Race for Critical Minerals in an Era of Geopolitical RealignmentsThe International Spectator, 55
Ersha Fan, Li Li, Zhenpo Wang, Jiao Lin, Yongxin Huang, Ying Yao, Renjie Chen, Feng Wu (2020)
Sustainable Recycling Technology for Li-Ion Batteries and Beyond: Challenges and Future Prospects.Chemical reviews
Xifan Chen, Yuanzhi Zhu, W. Peng, Yang Li, Guoliang Zhang, Feng-bao Zhang, Xiaobin Fan (2017)
Direct exfoliation of the anode graphite of used Li-ion batteries into few-layer graphene sheets: a green and high yield route to high-quality graphene preparationJournal of Materials Chemistry, 5
H. Nara, Shingo Tsuda, T. Osaka (2017)
Techniques for realizing practical application of sulfur cathodes in future Li-ion batteriesJournal of Solid State Electrochemistry, 21
A. Demirbaş (2007)
Adsorption of Co(II) and Hg(II) from Water and Wastewater onto Modified LigninEnergy Sources, Part A: Recovery, Utilization, and Environmental Effects, 29
S. Chun, E. Choi, Eun Lee, J. Kim, Sunyoung Lee, Sang Lee (2012)
Eco-friendly cellulose nanofiber paper-derived separator membranes featuring tunable nanoporous network channels for lithium-ion batteriesJournal of Materials Chemistry, 22
Seung‐Taek Myung, H. Chung, S. Komaba, N. Kumagai, H. Gu (2000)
Capacity fading of LiMn2O4 electrode synthesized by the emulsion drying methodJournal of Power Sources, 90
Bin Huang, Z. Pan, Xiangyu Su, L. An (2018)
Recycling of lithium-ion batteries: Recent advances and perspectivesJournal of Power Sources
Xiang-pan Chen, Duozhi Kang, Ling Cao, Jiazhu Li, T. Zhou, Hongrui Ma (2019)
Separation and recovery of valuable metals from spent lithium ion batteries: Simultaneous recovery of Li and Co in a single stepSeparation and Purification Technology
Sung‐Yoon Chung, J. Bloking, Y. Chiang (2002)
Electronically conductive phospho-olivines as lithium storage electrodesNature Materials, 1
Yuhui Chen, S. Freunberger, Zhangquan Peng, O. Fontaine, P. Bruce (2013)
Charging a Li-O₂ battery using a redox mediator.Nature chemistry, 5 6
K. Mizushima, P. Jones, P. Wiseman, J. Goodenough (1980)
LixCoO2 (0Materials Research Bulletin, 15
Shi Wang, Lei Zhang, Ailian Wang, Xu Liu, Jie-feng Chen, Zhinan Wang, Q. Zeng, Henghui Zhou, Xiaorui Jiang, Liaoyun Zhang (2018)
Polymer-Laden Composite Lignin-Based Electrolyte Membrane for High-Performance Lithium BatteriesACS Sustainable Chemistry & Engineering
J. Schuster, Guang He, B. Mandlmeier, Taeeun Yim, Kyu Lee, T. Bein, L. Nazar (2012)
Spherical ordered mesoporous carbon nanoparticles with high porosity for lithium-sulfur batteries.Angewandte Chemie, 51 15
Bin Wang, Xianglong Li, Bin Luo, Jingxuan Yang, Xiangjun Wang, Qi Song, Shiyan Chen, L. Zhi (2013)
Bacterial Cellulose : A Versatile Support for Lithium Ion Battery Anode Materials
Young-Ugk Kim, B. Cho, H. Sohn (2005)
The reaction mechanism of lithium insertion in vanadium tetraphosphide : A possible anode material in lithium-ion batteriesJournal of The Electrochemical Society, 152
J. Zimmerman, P. Anastas, H. Erythropel, W. Leitner (2020)
Designing for a green chemistry futureScience, 367
Bo Liu, Yun Huang, Haijun Cao, Amin Song, Yuanhua Lin, Mingshan Wang, Xing Li (2018)
A high-performance and environment-friendly gel polymer electrolyte for lithium ion battery based on composited lignin membraneJournal of Solid State Electrochemistry, 22
K. Xu, U. Lee, Shengshui Zhang, J. Allen, T. Jow (2004)
Graphite/electrolyte interface formed in LiBoB-based electrolytes. I. Differentiating the roles of EC and LiBOB in SEI formationElectrochemical and Solid State Letters, 7
Zhaohui Chen, Zhonghua Lu, J. Dahn (2002)
Staging Phase Transitions in Li x CoO2Journal of The Electrochemical Society, 149
L. Thompson, W. Stone, A. Eldesoky, N. Smith, C. McFarlane, Jong Kim, Michel Johnson, R. Petibon, J. Dahn (2018)
Quantifying Changes to the Electrolyte and Negative Electrode in Aged NMC532/Graphite Lithium-Ion CellsJournal of The Electrochemical Society, 165
G. Armstrong, A. Armstrong, P. Bruce, P. Reale, B. Scrosati (2006)
TiO2(B) Nanowires as an Improved Anode Material for Lithium‐Ion Batteries Containing LiFePO4 or LiNi0.5Mn1.5O4 Cathodes and a Polymer ElectrolyteAdvanced Materials, 18
J. Qiu, Xinyu Liu, Rusong Chen, Qinghao Li, Yi Wang, Peng Chen, Luyu Gan, Sang-Jun Lee, D. Nordlund, Yijin Liu, Xiqian Yu, X. Bai, Hong Li, Liquan Chen (2020)
Enabling Stable Cycling of 4.2 V High‐Voltage All‐Solid‐State Batteries with PEO‐Based Solid ElectrolyteAdvanced Functional Materials, 30
Hong Zhang, Xuanhe Hu, Yi Zhang, Shuangyin Wang, Fei Xin, Xudong Chen, Dingshan Yu (2019)
3D-crosslinked tannic acid/poly(ethylene oxide) complex as a three-in-one multifunctional binder for high-sulfur-loading and high-stability cathodes in lithium-sulfur batteriesEnergy Storage Materials
Yang Gao, Xiaotao Qiu, Xiuli Wang, Xianchun Chen, Aiqun Gu, Zili Yu (2019)
Nitrogen-doped porous carbon microspheres for high-rate anode material in lithium-ion batteriesNanotechnology, 31
A. Trifonova, M. Wachtler, M. Winter, J. Besenhard (2002)
Sn-Sb and Sn-Bi alloys as anode materials for lithium-ion batteriesIonics, 8
Jiang Deng, Tianyi Xiong, Haiyan Wang, An-qing Zheng, Yong Wang (2016)
Effects of Cellulose, Hemicellulose, and Lignin on the Structure and Morphology of Porous CarbonsACS Sustainable Chemistry & Engineering, 4
J. Broek, J. Rupp, Semih Afyon (2017)
Boosting the electrochemical performance of Li-garnet based all-solid-state batteries with Li4Ti5O12 electrode: Routes to cheap and large scale ceramic processingJournal of Electroceramics, 38
(2003)
www.advenergymat.de © 2020 The Authors. Advanced Energy Materials published by Wiley-VCH GmbH
N. Katayama, T. Kawamura, Y. Baba, J. Yamaki (2002)
Thermal stability of propylene carbonate and ethylene carbonate–propylene carbonate-based electrolytes for use in Li cellsJournal of Power Sources, 109
Xia Lu, Liang Zhao, Xiaoqing He, Ruijuan Xiao, L. Gu, Yong‐Sheng Hu, Hong Li, Zhaoxiang Wang, Xiaofeng Duan, Liquan Chen, J. Maier, Y. Ikuhara (2012)
Lithium Storage in Li4Ti5O12 Spinel: The Full Static Picture from Electron MicroscopyAdvanced Materials, 24
Rasel Das, B. Leo, Finbarr Murphy (2018)
The Toxic Truth About Carbon Nanotubes in Water Purification: a Perspective ViewNanoscale Research Letters, 13
Ruijun Pan, O. Cheung, Zhaohui Wang, P. Tammela, J. Huo, Jonas Lindh, K. Edström, M. Strømme, L. Nyholm (2016)
Mesoporous Cladophora cellulose separators for lithium-ion batteriesJournal of Power Sources, 321
Yan‐xia Jiang, Jin-mei Xu, Q. Zhuang, Lanying Jin, Shigang Sun (2008)
A novel PEO-based composite solid-state polymer electrolyte with methyl group-functionalized SBA-15 filler for rechargeable lithium batteriesJournal of Solid State Electrochemistry, 12
Biao Zhang, Yang Yu, Yusi Liu, Z. Huang, Yanzhen He, Jang‐Kyo Kim (2013)
Percolation threshold of graphene nanosheets as conductive additives in Li4Ti5O12 anodes of Li-ion batteries.Nanoscale, 5 5
H. Gomaa, Sherif El-Safty, M. Shenashen, S. Kawada, H. Yamaguchi, M. Abdelmottaleb, M. Cheira (2018)
Three-Dimensional, Vertical Platelets of ZnO Carriers for Selective Extraction of Cobalt Ions from Waste Printed Circuit BoardsACS Sustainable Chemistry & Engineering
Liangbing Hu, J. Choi, Yuan Yang, Sangmoo Jeong, F. Mantia, Lifeng Cui, Yi Cui (2009)
Highly conductive paper for energy-storage devicesProceedings of the National Academy of Sciences, 106
Katharina Märker, P. Reeves, Chaodi Xu, Kent Griffith, C. Grey (2019)
Evolution of Structure and Lithium Dynamics in LiNi0.8Mn0.1Co0.1O2 (NMC811) Cathodes during Electrochemical CyclingChemistry of Materials
Jinxing Yang, Zhaojin Li, Tianjia Guang, Minmin Hu, Renfei Cheng, Ruoyu Wang, Chao Shi, Ji-Xiang Chen, P. Hou, K. Zhu, Xiaohui Wang (2018)
Green synthesis of high-performance LiFePO4 nanocrystals in pure waterGreen Chemistry, 20
T. Budnyak, J. Pia̧tek, Ievgen Pylypchuk, Matthias Klimpel, O. Sevastyanova, M. Lindström, V. Gun’ko, Adam Slabon (2020)
Membrane-Filtered Kraft Lignin–Silica Hybrids as Bio-Based Sorbents for Cobalt(II) Ion RecyclingACS Omega, 5
T. Georgi-Maschler, B. Friedrich, R. Weyhe, H. Heegn, M. Rutz (2012)
Development of a recycling process for Li-ion batteriesJournal of Power Sources, 207
J. Diekmann, C. Hanisch, Thomas Loellhoeffel, Gerrit Schälicke, A. Kwade (2016)
Ecologically Friendly Recycling of Lithium-Ion Batteries - the Lithorec Process, 73
M. Broussely, P. Blanchard, P. Biensan, J. Planchat, K. Nechev, R. Staniewicz (2003)
Properties of large Li ion cells using a nickel based mixed oxideJournal of Power Sources, 119
M. Sathish, T. Tomai, I. Honma (2012)
Graphene anchored with Fe3O4 nanoparticles as anode for enhanced Li-ion storageJournal of Power Sources, 217
Weizhai Bao, Zhian Zhang, Yongqing Gan, Xiwen Wang, J. Lia (2013)
Enhanced cyclability of sulfur cathodes in lithium-sulfur batteries with Na-alginate as a binderJournal of Energy Chemistry, 22
Nontipa Supanchaiyamat, Kaewta Jetsrisuparb, Jesper Knijnenburg, Daniel Tsang, A. Hunt (2019)
Lignin materials for adsorption: Current trend, perspectives and opportunities.Bioresource technology, 272
Gaoran Li, M. Ling, Yifan Ye, Z. Li, Jinghua Guo, Yingfang Yao, Junfa Zhu, Zhan Lin, Shanqing Zhang (2015)
Acacia Senegal–Inspired Bifunctional Binder for Longevity of Lithium–Sulfur BatteriesAdvanced Energy Materials, 5
M. Lazzari, B. Scrosati (1980)
A Cyclable Lithium Organic Electrolyte Cell Based on Two Intercalation ElectrodesJournal of The Electrochemical Society, 127
Z. Zeping, Feng Chen, Tairong Kuang, Lingqian Chang, Jintao Yang, P. Fan, Zhao Zhengping, Mingqiang Zhong (2018)
Lignin-derived hierarchical mesoporous carbon and NiO hybrid nanospheres with exceptional Li-ion battery and pseudocapacitive propertiesElectrochimica Acta
Yaocai Bai, N. Muralidharan, Yang‐Kook Sun, S. Passerini, M. Whittingham, I. Belharouak (2020)
Energy and environmental aspects in recycling lithium-ion batteries: Concept of Battery Identity Global PassportMaterials Today, 41
Brigitte Markner-Jäger (2008)
Energy Sources I
Yingchao Chen, Kai Xie, Yi Pan, Chunman Zheng (2011)
Nano-sized LiMn2O4 spinel cathode materials exhibiting high rate discharge capability for lithium-ion batteriesJournal of Power Sources, 196
D. Capsoni, M. Bini, G. Chiodelli, V. Massarotti, C. Azzoni, M. Mozzati, A. Comin (2001)
Inhibition of Jahn–Teller cooperative distortion in LiMn2O4 spinel by transition metal ion dopingPhysical Chemistry Chemical Physics, 3
D. Murphy, F. Salvo, J. Carides, J. Waszczak (1978)
Topochemical reactions of rutile related structures with lithiumMaterials Research Bulletin, 13
Zhihua Zhang, Shaojie Chen, Jing Yang, Junye Wang, Lili Yao, X. Yao, P. Cui, Xiaoxiong Xu (2018)
Interface Re-Engineering of Li10GeP2S12 Electrolyte and Lithium anode for All-Solid-State Lithium Batteries with Ultralong Cycle Life.ACS applied materials & interfaces, 10 3
Xuejun Pan, N. Gilkes, J. Saddler (2006)
Effect of acetyl groups on enzymatic hydrolysis of cellulosic substrates, 60
(2019)
Development of a New Recycling Process for Lithium Ion Secondary Batteries and Operation of a Pilot Plant Sumitomo
Semih Afyon, C. Mensing, F. Krumeich, R. Nesper (2014)
The electrochemical activity for nano-LiCoBO3 as a cathode material for Li-ion batteriesSolid State Ionics, 256
S. Klankowski, R. Rojeski, B. Cruden, Jianwei Liu, Judy Wu, Jun Li (2012)
A high-performance lithium-ion battery anode based on the core–shell heterostructure of silicon-coated vertically aligned carbon nanofibersJournal of Materials Chemistry, 1
Julia Shamshina, Paula Berton, R. Rogers (2019)
Advances in Functional Chitin Materials: A ReviewACS Sustainable Chemistry & Engineering
S. Natarajan, K. Subramanyan, R. Dhanalakshmi, A. Stephan, V. Aravindan (2020)
Regeneration of Polyolefin Separators from Spent Li‐Ion Battery for Second Life, 3
Sanghan Lee, Yonghyun Cho, Hyun‐Kon Song, Kyu-Tae Lee, Jaephil Cho (2012)
Carbon-coated single-crystal LiMn2O4 nanoparticle clusters as cathode material for high-energy and high-power lithium-ion batteries.Angewandte Chemie, 51 35
S. Brink, R. Kleijn, B. Sprecher, A. Tukker (2020)
Identifying supply risks by mapping the cobalt supply chainResources, Conservation and Recycling
Chi-Hao Chang, Sheng‐Heng Chung, A. Manthiram (2017)
Dendrite‐Free Lithium Anode via a Homogenous Li‐Ion Distribution Enabled by a Kimwipe PaperAdvanced Sustainable Systems, 1
S. Freunberger, Yuhui Chen, Zhangquan Peng, J. Griffin, L. Hardwick, F. Bardé, P. Novák, P. Bruce (2011)
Reactions in the rechargeable lithium-O2 battery with alkyl carbonate electrolytes.Journal of the American Chemical Society, 133 20
Wenwu Zeng, Lei Wang, Xiang Peng, Tiefeng Liu, Youyu Jiang, F. Qin, Lin Hu, P. Chu, K. Huo, Yinhua Zhou (2018)
Enhanced Ion Conductivity in Conducting Polymer Binder for High‐Performance Silicon Anodes in Advanced Lithium‐Ion BatteriesAdvanced Energy Materials, 8
R. Moskalyk, A. Alfantazi (2003)
Review of copper pyrometallurgical practice: today and tomorrowMinerals Engineering, 16
B. Banov, J. Bourilkov, M. Mladenov (1995)
Cobalt stabilized layered lithium-nickel oxides, cathodes in lithium rechargeable cellsJournal of Power Sources, 54
Jun Liu, Zonghai Chen, Sara Busking, K. Amine (2007)
Lithium difluoro(oxalato)borate as a functional additive for lithium-ion batteriesElectrochemistry Communications, 9
G. Hautier, Anubhav Jain, Hailong Chen, C. Moore, S. Ong, G. Ceder (2011)
Novel mixed polyanions lithium-ion battery cathode materials predicted by high-throughput ab initio computationsJournal of Materials Chemistry, 21
S. Beattie, D. Manolescu, S. Blair (2009)
High-Capacity Lithium–Air CathodesJournal of The Electrochemical Society, 156
Advanced Energy Materials – Wiley
Published: Nov 1, 2021
Keywords: energy storage; green chemistry; Li‐ion batteries; recycling; renewable materials; sustainable processes; valorization
You can share this free article with as many people as you like with the url below! We hope you enjoy this feature!
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.