Add to ORKGThis work compares the intercalation of K, Na, and Li in KxVPO4F (x ∼ 0). The KxVPO4F (x ∼ 0) cathode delivers reversible capacities of ≈90–100 mAh g−1 in K, Na, and Li cells, at an average voltage of ≈4.33 V for K, ≈3.98 V for Na, and ≈3.96 V for Li. This is so far the highest average voltage known for a K-intercalation cathode. The lower voltage of Li insertion compared to Na is attributable to undercoordinated Li ions in the KxVPO4F (x ∼ 0) framework. While the material shows high rate capability for all the alkali ions, Li migration in KxVPO4F (x ∼ 0) is more difficult than with Na and K. This work suggests that a large cavity is not always good for insertion of alkali ions and cathode materials need to be suitably tailored to each inte...
Intercalation of ions in electrode materials has been explored to improve the rate capability in lit...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Materials Science and Engineeri...
The electrochemical alkali ion exchange is a powerful technique to synthesize novel active materials...
This work compares the intercalation of K, Na, and Li in KxVPO4F (x ∼ 0). The KxVPO4F (x ∼ 0) cathod...
In this paper, we report on a novel α-VPO4 phosphate adopting the α-CrPO4 type structure as a promis...
In this paper, we report on a novel α-VPO4 phosphate adopting the α-CrPO4 type structure as a promis...
International audienceCurrent performances of Li-, Na-, or K-ion batteries are mainly limited by the...
International audienceCurrent performances of Li-, Na-, or K-ion batteries are mainly limited by the...
International audienceCurrent performances of Li-, Na-, or K-ion batteries are mainly limited by the...
International audienceCurrent performances of Li-, Na-, or K-ion batteries are mainly limited by the...
Current performances of Li-, Na-, or K-ion batteries are mainly limited by the specific capacity of ...
The exploration of high-energy-density cathode materials is vital to the practical use of K-ion batt...
Discovering high-energy cathode materials is critical to construct K-ion batteries for practical app...
The exploration of high-energy-density cathode materials is vital to the practical use of K-ion batt...
The exploration of high-energy-density cathode materials is vital to the practical use of K-ion batt...
Intercalation of ions in electrode materials has been explored to improve the rate capability in lit...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Materials Science and Engineeri...
The electrochemical alkali ion exchange is a powerful technique to synthesize novel active materials...
This work compares the intercalation of K, Na, and Li in KxVPO4F (x ∼ 0). The KxVPO4F (x ∼ 0) cathod...
In this paper, we report on a novel α-VPO4 phosphate adopting the α-CrPO4 type structure as a promis...
In this paper, we report on a novel α-VPO4 phosphate adopting the α-CrPO4 type structure as a promis...
International audienceCurrent performances of Li-, Na-, or K-ion batteries are mainly limited by the...
International audienceCurrent performances of Li-, Na-, or K-ion batteries are mainly limited by the...
International audienceCurrent performances of Li-, Na-, or K-ion batteries are mainly limited by the...
International audienceCurrent performances of Li-, Na-, or K-ion batteries are mainly limited by the...
Current performances of Li-, Na-, or K-ion batteries are mainly limited by the specific capacity of ...
The exploration of high-energy-density cathode materials is vital to the practical use of K-ion batt...
Discovering high-energy cathode materials is critical to construct K-ion batteries for practical app...
The exploration of high-energy-density cathode materials is vital to the practical use of K-ion batt...
The exploration of high-energy-density cathode materials is vital to the practical use of K-ion batt...
Intercalation of ions in electrode materials has been explored to improve the rate capability in lit...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Materials Science and Engineeri...
The electrochemical alkali ion exchange is a powerful technique to synthesize novel active materials...