In the pursuit to develop practical sodium-ion batteries, safe negative insertion (anode) materials are essential. Recently, Na2Ti6O13 has been unveiled by conventional solid-state synthesis as a 0.85 V anode with 1-dimensional Na+ diffusion pathways. Here, an energy-savvy autocombustion synthesis has been successfully implemented to produce the target compound Na2Ti6O13 by restricting the annealing duration within 2 h. This drastic reduction in heat-treatment time involves minimal grain-growth hence forming homogeneous nanostructured particles (∼100 nm). It benchmarks the shortest synthesis of Ti-based anodes for sodium-ion batteries. The current work describes various aspects of autocombustion route. The as-prepared compound delivers near theoretical capacity (ca. 40 mAh g−1) involving a Ti4+/Ti3+ redox potential centered at 0.83 V (vs. Na/Na+) with excellent reversibility. Using both experiment and bond valence site energy (BVSE) modeling, the electrochemical, Na+ diffusion pathways and corresponding energy barriers have been explained.
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