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Boosting the lithium storage performance of Na2Li2Ti6O14 anodes by g-C3N4 modification.
- Source :
- Dalton Transactions: An International Journal of Inorganic Chemistry; 4/21/2021, Vol. 50 Issue 15, p5208-5217, 10p
- Publication Year :
- 2021
-
Abstract
- Na<subscript>2</subscript>Li<subscript>2</subscript>Ti<subscript>6</subscript>O<subscript>14</subscript> particles were prepared by a simple solid-state process, and then g-C<subscript>3</subscript>N<subscript>4</subscript>-coated Na<subscript>2</subscript>Li<subscript>2</subscript>Ti<subscript>6</subscript>O<subscript>14</subscript> composites were constructed by a facile solution route for the first time. The g-C<subscript>3</subscript>N<subscript>4</subscript>-coated Na<subscript>2</subscript>Li<subscript>2</subscript>Ti<subscript>6</subscript>O<subscript>14</subscript> multicomponent composites because of their unique architecture as negative materials for Li-ion batteries can be expected to exhibit a significantly improved cycling stability and reversible capacity even at high rates. g-C<subscript>3</subscript>N<subscript>4</subscript> (5 wt%)-coated Na<subscript>2</subscript>Li<subscript>2</subscript>Ti<subscript>6</subscript>O<subscript>14</subscript> shows a discharge (charge) capacity of 184.4 (184.3) mA h g<superscript>−1</superscript> at 500 mA g<superscript>−1</superscript> after 100 cycles, which is larger than that of pristine Na<subscript>2</subscript>Li<subscript>2</subscript>Ti<subscript>6</subscript>O<subscript>14</subscript> with a discharge (charge) capacity of 122.8 (122.0) mA h g<superscript>−1</superscript>. The use of g-C<subscript>3</subscript>N<subscript>4</subscript> with a carbon framework containing abundant nitrogen provides more active sites and surface defects for redox reactions and Li-ion transport. The g-C<subscript>3</subscript>N<subscript>4</subscript> coating decreases the impedance between the electrolyte and Na<subscript>2</subscript>Li<subscript>2</subscript>Ti<subscript>6</subscript>O<subscript>14</subscript> and enhances the charge transfer, ionic conductivity and diffusion ability of Li ions of Na<subscript>2</subscript>Li<subscript>2</subscript>Ti<subscript>6</subscript>O<subscript>14</subscript>. This work offers an efficient way to design high-performance Na<subscript>2</subscript>Li<subscript>2</subscript>Ti<subscript>6</subscript>O<subscript>14</subscript>-based materials for advanced lithium ion battery, and g-C<subscript>3</subscript>N<subscript>4</subscript> (5 wt%)-coated Na<subscript>2</subscript>Li<subscript>2</subscript>Ti<subscript>6</subscript>O<subscript>14</subscript> shows an enormous potential as a negative material for next generation Li-ion batteries with excellent performance. [ABSTRACT FROM AUTHOR]
Details
- Language :
- English
- ISSN :
- 14779226
- Volume :
- 50
- Issue :
- 15
- Database :
- Complementary Index
- Journal :
- Dalton Transactions: An International Journal of Inorganic Chemistry
- Publication Type :
- Academic Journal
- Accession number :
- 149918707
- Full Text :
- https://doi.org/10.1039/d1dt00497b