Add to ORKGAn activated carbon cloth/polymer-iodine (ACC/PVP-I-2) composite was prepared by the Betadine method and employed as a high-performance cathode for rechargeable Li/I-2 batteries. Due to the synergistic effect of ACC and PVP-I-2, Li/I-2 cells with ACC/PVP-I-2 as the cathode exhibited superior electrochemical performance
The need for a clean and sustainable energy supply in the transportation sector have prompted electr...
Li-iodine chemistry is of interest for electrochemical energy storage because it has been shown to p...
π-Stacked perylene bisimide (PBI) molecules are implemented here as highly networked, redox-active s...
An activated carbon cloth/polymer-iodine (ACC/PVP-I-2) composite was prepared by the Betadine method...
Ultra-stable binder-free rechargeable Li/I2 batteries enabled by "Betadine'' chemical interactio
Rechargeable multivalent ion (Al3+, Mg2+ and Zn2+) batteries provide a viable alternative to lithium...
Rechargeable Li-iodine batteries are attractive electrochemical energy storage systems because iodin...
© 2019 American Chemical Society. Lithium-iodine (Li-I) batteries have attracted tremendous attentio...
Lithium–iodine (Li–I) batteries have attracted tremendous attention due to their high energy and pow...
Lithium iodide (LiI) as cathode for lithium-iodine (Li-I 2 ) batteries hold great promise compared t...
Doping carbonaceous materials are regarded as prospective cathode candidates for high-performance li...
none3noLi/O2 batteries are a breakthrough in battery technology for powering long-range electric veh...
Ultra-stable sodium metal-iodine batteries enabled by an in-situ solid electrolyte interphas
The lithium/iodine-polyvinylpyridine (PVP) battery has been in clinical use as a power source for pa...
A lithium-iodine (Li-I-2) cell using the triiodide/iodide (I-3(-)/I-) rcdox couple in an aqueous cat...
The need for a clean and sustainable energy supply in the transportation sector have prompted electr...
Li-iodine chemistry is of interest for electrochemical energy storage because it has been shown to p...
π-Stacked perylene bisimide (PBI) molecules are implemented here as highly networked, redox-active s...
An activated carbon cloth/polymer-iodine (ACC/PVP-I-2) composite was prepared by the Betadine method...
Ultra-stable binder-free rechargeable Li/I2 batteries enabled by "Betadine'' chemical interactio
Rechargeable multivalent ion (Al3+, Mg2+ and Zn2+) batteries provide a viable alternative to lithium...
Rechargeable Li-iodine batteries are attractive electrochemical energy storage systems because iodin...
© 2019 American Chemical Society. Lithium-iodine (Li-I) batteries have attracted tremendous attentio...
Lithium–iodine (Li–I) batteries have attracted tremendous attention due to their high energy and pow...
Lithium iodide (LiI) as cathode for lithium-iodine (Li-I 2 ) batteries hold great promise compared t...
Doping carbonaceous materials are regarded as prospective cathode candidates for high-performance li...
none3noLi/O2 batteries are a breakthrough in battery technology for powering long-range electric veh...
Ultra-stable sodium metal-iodine batteries enabled by an in-situ solid electrolyte interphas
The lithium/iodine-polyvinylpyridine (PVP) battery has been in clinical use as a power source for pa...
A lithium-iodine (Li-I-2) cell using the triiodide/iodide (I-3(-)/I-) rcdox couple in an aqueous cat...
The need for a clean and sustainable energy supply in the transportation sector have prompted electr...
Li-iodine chemistry is of interest for electrochemical energy storage because it has been shown to p...
π-Stacked perylene bisimide (PBI) molecules are implemented here as highly networked, redox-active s...