All-Electrochem-Active Thick Electrode with Dual-Continuous TiO2-Carbon Integrated Skeletons for Low-Temperature Lithium Storage
- Authors
- Publication Date
- Nov 15, 2022
- Source
- Institutional Repository of Institute of Process Engineering, CAS (IPE-IR)
- Keywords
- License
- Unknown
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Abstract
Newly designed all-electrochem-active thick electrode (similar to 500 mu m) with dual-continuous integrated skeletons of defective rutile-anatase TiO2 (D-R-A-TiO2) heterojunctions and carbon have been introduced to enhance efficient electron- ion transport for high-rate energy storage, which provides a new idea for low-temperature lithium storage. For the first time, we anneal anatase TiO2 integrated carbon under CO2 atmosphere for converting anatase to rutile and activating carbon simultaneously, to fabricate freestanding all-electrochem-active thick electrode. The D-R-A-TiO2 heterojunctions contain a type II staggered band alignment, which significantly induce highly localized electrons and lower the migration barrier of ions. The continuous D-R-A-TiO2 heterojunctions form synergistically advantageous electronic networks, and the thick electrode (up to 60.97 mg cm-2) delivers outstanding areal capacity (14.14 mAh cm-2 at 0.61 mA cm-2) under 30 degrees C. The areal capacity is 8.62 mAh cm-2 at 0.57 mA cm-2 under -10 degrees C. When the temperature drops to -20 degrees C, the areal capacity still delivers 4.92 mAh cm-2 at 0.57 mA cm-2. And the D-R-A-TiO2 electrode still delivers 3.2 mAh cm-2 capacity after 70 cycles at 0.57 mA cm-2 under -20 degrees C.