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References (23)
-
M. Demirkan, L. Trahey, T. Karabacak (2016)
Low-density silicon thin films for lithium-ion battery anodesThin Solid Films, 600
-
(2016)
The effect of polyaniline on TiO 2 nanoparticles as anode materials for lithium ion batteries -
(2009)
Preparation and characterization of Li2CoMn3O8 thin film cathodes for high energy lithium batteries. Ionics (Kiel) 15(1):11–17 -
Jianlin Li, Claus Daniel, D. Wood (2011)
Materials processing for lithium-ion batteriesThe Lancet
-
Donghai Wang, D. Choi, Juan Li, Z. Yang, Z. Nie, R. Kou, Dehong Hu, Chongmin Wang, L. Saraf, Ji‐Guang Zhang, I. Aksay, Jun Liu (2009)
Self-assembled TiO2-graphene hybrid nanostructures for enhanced Li-ion insertion.ACS nano, 3 4
-
Haitao Zheng, Ntombizodwa Ncube, K. Raju, N. Mphahlele, M. Mathe (2016)
The effect of polyaniline on TiO2 nanoparticles as anode materials for lithium ion batteriesSpringerPlus, 5
-
Kai Chi, Zheye Zhang, Jiangbo Xi, Yongan Huang, Fei Xiao, Shuai Wang, Yunqi Liu (2014)
Freestanding graphene paper supported three-dimensional porous graphene-polyaniline nanocomposite synthesized by inkjet printing and in flexible all-solid-state supercapacitor.ACS applied materials & interfaces, 6 18
-
M. Takahashi, J. Tani, H. Kido, A. Hayashi, K. Tadanaga, M. Tatsumisago (2011)
Thin Film Electrode Materials Li4Ti5O12 and LiCoO2 Prepared by Spray Pyrolysis MethodIOP Conference Series: Materials Science and Engineering, 18
-
Y. Bai, C. Knittlmayer, S. Gledhill, I. Lauermann, C. Fischer, W. Weppner (2009)
Preparation and characterization of Li2CoMn3O8 thin film cathodes for high energy lithium batteriesIonics, 15
-
A. Magasinski, P. Dixon, B. Hertzberg, A. Kvit, J. Ayala, G. Yushin (2010)
High-performance lithium-ion anodes using a hierarchical bottom-up approach.Nature materials, 9 4
-
Dengyu Pan, He Huang, Wang Xueyuan, Liang Wang, Haobo Liao, Zhen Li, Minghong Wu (2014)
C-axis preferentially oriented and fully activated TiO2 nanotube arrays for lithium ion batteries and supercapacitorsJournal of Materials Chemistry, 2
-
S. Chou, Jiazhao Wang, Huakun Liu, S. Dou (2008)
Electrochemical deposition of porous Co3O4 nanostructured thin film for lithium-ion batteryJournal of Power Sources, 182
-
W. Göpel, J. Anderson, D. Frankel, M. Jaehnig, K. Phillips, J. Schäfer, G. Rocker (1984)
Surface defects of TiO2(110): A combined XPS, XAES AND ELS studySurface Science, 139
-
K. Chiu, K. Lin, H. Leu, C. Chen, C. Lin (2012)
Fabrication and Characterization of Nano-Crystalline TiO2 Thin Film Electrodes for Lithium Ion BatteriesJournal of The Electrochemical Society, 159
-
Jie Wang, Yingke Zhou, Yuanyuan Hu, R. O'Hayre, Zongping Shao (2011)
Facile Synthesis of Nanocrystalline TiO2 Mesoporous Microspheres for Lithium-Ion BatteriesJournal of Physical Chemistry C, 115
-
C. Navone, J. Pereira‐Ramos, R. Baddour‐Hadjean, R. Salot (2010)
Lithiated c-V2O5 thin-film as positive electrode for rocking-chair solid-state lithium microbatteryIonics, 16
-
Yan Yu, L. Gu, A. Dhanabalan, Chun-hua Chen, Chunlei Wang (2009)
Three-dimensional porous amorphous SnO2 thin films as anodes for Li-ion batteriesElectrochimica Acta, 54
-
Sreejith Madhusudanan, Binitha Gangaja, Anjusree Shyla, A. Nair, S. Nair, Dhamodaran Santhanagopalan (2017)
Sustainable Chemical Synthesis for Phosphorus-Doping of TiO2 Nanoparticles by Upcycling Human Urine and Impact of Doping on Energy ApplicationsACS Sustainable Chemistry & Engineering, 5
-
J. Bates (2000)
Thin-Film Lithium and Lithium-Ion BatteriesSolid State Ionics, 135
-
Benlin He, B. Dong, Hu-lin Li (2007)
Preparation and electrochemical properties of Ag-modified TiO2 nanotube anode material for lithium–ion batteryElectrochemistry Communications, 9
-
P. Acevedo‐Peña, M. Haro, M. Rincón, J. Bisquert, G. Garcia‐Belmonte (2014)
Facile kinetics of Li-ion intake causes superior rate capability in multiwalled carbon nanotube@TiO2 nanocomposite battery anodesJournal of Power Sources, 268
-
Anupriya Haridas, Binitha Gangaja, P. Srikrishnarka, Gautam Unni, A. Nair, S. Nair, Dhamodaran Santhanagopalan (2017)
Spray pyrolysis-deposited nanoengineered TiO2 thick films for ultra-high areal and volumetric capacity lithium ion battery applicationsJournal of Power Sources, 345
-
S. Aslan, M. Guler, O. Cevher, H. Akbulut (2012)
Nano crystalline TiO2 thin films as negative electrodes for lithium ion batteries.Journal of nanoscience and nanotechnology, 12 12
- Publisher
- Springer Journals
- Copyright
- Copyright © 2017 by Springer-Verlag GmbH Germany, part of Springer Nature
- Subject
- Chemistry; Electrochemistry; Renewable and Green Energy; Optical and Electronic Materials; Condensed Matter Physics; Energy Storage
- ISSN
- 0947-7047
- eISSN
- 1862-0760
- DOI
- 10.1007/s11581-017-2389-y
- Publisher site
- See Article on Publisher Site
Abstract
Focusing on additive-free electrodes, thin films are of typical interest as electrodes for lithium ion battery application. Herein, we report the fabrication of TiO2 thin films by spray pyrolysis deposition technique. X-ray diffraction and transmission electron microscopic analysis confirms the formation of anatase TiO2. Electrochemical evaluation of these sub-micron TiO2 thin films exhibits high-rate performance and long cycling stability. At 1C rate (1C = 335 mA/g), the electrode delivered discharge capacity of 247 mAh/g allowing about 0.74 lithium into the structure. The electrodes also delivered specific capacities of 122 and 72 mAh/g at 10 and 30C rates, respectively. Without conductive additives, this excellent performance can be attributed to the nanosize effect of TiO2 particles combined with the uniform porous architecture of the electrode. Upon cycling at high rates (10 and 30C), the electrode exhibited excellent cycling stability and retention, specifically only < 0.6% capacity loss per cycle over 2500 cycles.
Journal
Ionics – Springer Journals
Published: Dec 14, 2017