Unraveling synergistic mixing of SnO2–TiO2 composite as anode for Li-ion battery and their electrochemical properties

The effect of Sn/Ti ratio on the electrochemical properties of the anode is studied in Sn-doped TiO 2 and SnO 2 –TiO 2 nanofibers synthesized using a pilot-scale electrospinning system. Changes in the lattice structure of TiO 2 due to the presence of Sn are studied through X-ray diffraction and high...

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Published in	Journal of materials research Vol. 36; no. 20; pp. 4120 - 4130
Main Authors	Ling, JinKiong, Karuppiah, Chelladurai, Reddy, M. V., Pal, Bhupender, Yang, Chun-Chen, Jose, Rajan
Format	Journal Article
Language	English
Published	Cham Springer International Publishing 28.10.2021 Springer Nature B.V
Subjects	Applied and Technical Physics Biomaterials Chemistry and Materials Science Cycles Electrochemical analysis Electrochemical potential High resolution electron microscopy Inorganic Chemistry Invited Paper Lithium-ion batteries Materials Engineering Materials research Materials Science Nanofibers Nanotechnology Rechargeable batteries Stability Tin Tin dioxide Titanium dioxide Sn Composite Chemical synthesis Ti Energy storage
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Abstract	The effect of Sn/Ti ratio on the electrochemical properties of the anode is studied in Sn-doped TiO 2 and SnO 2 –TiO 2 nanofibers synthesized using a pilot-scale electrospinning system. Changes in the lattice structure of TiO 2 due to the presence of Sn are studied through X-ray diffraction and high-resolution transmission electron microscopy. Lowering of electrochemical potential (vs Li/Li + ) is observed alongside the enhanced capacity (400–600 mAh g −1 ) with increasing Sn content. Formation of SnO 2 grain in sample with high Sn content (70 wt%) shows detrimental effect on cycling stability due to severe volume changes during lithiation/delithiation. We show that the relative fraction of TiO 2 and SnO 2 framework determines whether the composite is high capacity or high stability. In overall, SnO 2 –TiO 2 composite anode with optimized Sn/Ti ratio can be used for high energy density, cycling stability and working potential lithium-ion battery. Graphic abstract The relative fraction of TiO 2 and SnO 2 framework determines whether the composite is high capacity or high stability
AbstractList	The effect of Sn/Ti ratio on the electrochemical properties of the anode is studied in Sn-doped TiO 2 and SnO 2 –TiO 2 nanofibers synthesized using a pilot-scale electrospinning system. Changes in the lattice structure of TiO 2 due to the presence of Sn are studied through X-ray diffraction and high-resolution transmission electron microscopy. Lowering of electrochemical potential (vs Li/Li + ) is observed alongside the enhanced capacity (400–600 mAh g −1 ) with increasing Sn content. Formation of SnO 2 grain in sample with high Sn content (70 wt%) shows detrimental effect on cycling stability due to severe volume changes during lithiation/delithiation. We show that the relative fraction of TiO 2 and SnO 2 framework determines whether the composite is high capacity or high stability. In overall, SnO 2 –TiO 2 composite anode with optimized Sn/Ti ratio can be used for high energy density, cycling stability and working potential lithium-ion battery. Graphic abstract The relative fraction of TiO 2 and SnO 2 framework determines whether the composite is high capacity or high stability The effect of Sn/Ti ratio on the electrochemical properties of the anode is studied in Sn-doped TiO2 and SnO2–TiO2 nanofibers synthesized using a pilot-scale electrospinning system. Changes in the lattice structure of TiO2 due to the presence of Sn are studied through X-ray diffraction and high-resolution transmission electron microscopy. Lowering of electrochemical potential (vs Li/Li+) is observed alongside the enhanced capacity (400–600 mAh g−1) with increasing Sn content. Formation of SnO2 grain in sample with high Sn content (70 wt%) shows detrimental effect on cycling stability due to severe volume changes during lithiation/delithiation. We show that the relative fraction of TiO2 and SnO2 framework determines whether the composite is high capacity or high stability. In overall, SnO2–TiO2 composite anode with optimized Sn/Ti ratio can be used for high energy density, cycling stability and working potential lithium-ion battery.Graphic abstractThe relative fraction of TiO2 and SnO2 framework determines whether the composite is high capacity or high stability
Author	Yang, Chun-Chen Jose, Rajan Pal, Bhupender Ling, JinKiong Karuppiah, Chelladurai Reddy, M. V.
Author_xml	– sequence: 1 givenname: JinKiong surname: Ling fullname: Ling, JinKiong organization: Nanostructured Renewable Energy Material Laboratory, Faculty of Industrial Sciences & Technology, Universiti Malaysia Pahang – sequence: 2 givenname: Chelladurai surname: Karuppiah fullname: Karuppiah, Chelladurai organization: Battery Research Center for Green Energy (BRCGE), Ming Chi University of Technology – sequence: 3 givenname: M. V. surname: Reddy fullname: Reddy, M. V. organization: Centre of Excellent in Transportation Electrification and Energy Storage (CETEES), Institute of Research Hydro-Québec – sequence: 4 givenname: Bhupender surname: Pal fullname: Pal, Bhupender organization: Nanostructured Renewable Energy Material Laboratory, Faculty of Industrial Sciences & Technology, Universiti Malaysia Pahang, Department of Inorganic Chemistry, University of Chemistry and Technology Prague – sequence: 5 givenname: Chun-Chen surname: Yang fullname: Yang, Chun-Chen organization: Battery Research Center for Green Energy (BRCGE), Ming Chi University of Technology – sequence: 6 givenname: Rajan orcidid: 0000-0003-4540-321X surname: Jose fullname: Jose, Rajan email: rjose@ump.edu.my organization: Nanostructured Renewable Energy Material Laboratory, Faculty of Industrial Sciences & Technology, Universiti Malaysia Pahang
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Snippet	The effect of Sn/Ti ratio on the electrochemical properties of the anode is studied in Sn-doped TiO 2 and SnO 2 –TiO 2 nanofibers synthesized using a... The effect of Sn/Ti ratio on the electrochemical properties of the anode is studied in Sn-doped TiO2 and SnO2–TiO2 nanofibers synthesized using a pilot-scale...
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SubjectTerms	Applied and Technical Physics Biomaterials Chemistry and Materials Science Cycles Electrochemical analysis Electrochemical potential High resolution electron microscopy Inorganic Chemistry Invited Paper Lithium-ion batteries Materials Engineering Materials research Materials Science Nanofibers Nanotechnology Rechargeable batteries Stability Tin Tin dioxide Titanium dioxide
Title	Unraveling synergistic mixing of SnO2–TiO2 composite as anode for Li-ion battery and their electrochemical properties
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