Pub. Date : 2020 Aug
PMID : 32584489
6 Functional Relationships(s)Download |
Sentence | Compound Name | Protein Name | Organism |
| 1 | Herein, a series of Li2 S/transition metal (TM) nanocomposites are synthesized via a lithiothermic reduction reaction, and it is realized that the presence of TMs in Li2 S matrix can transform electrochemical behaviors of Li2 S. On the one hand, the incorporation of W, Mo, or Ti greatly increases electronic and ionic conductivity of Li2 S composites and inhibits the polysulfide dissolution via the TM S bond, effectively addressing the drawbacks of Li2 S cathodes. | Tungsten | ATP binding cassette subfamily A member 12 | Homo sapiens |
| 2 | Herein, a series of Li2 S/transition metal (TM) nanocomposites are synthesized via a lithiothermic reduction reaction, and it is realized that the presence of TMs in Li2 S matrix can transform electrochemical behaviors of Li2 S. On the one hand, the incorporation of W, Mo, or Ti greatly increases electronic and ionic conductivity of Li2 S composites and inhibits the polysulfide dissolution via the TM S bond, effectively addressing the drawbacks of Li2 S cathodes. | Tungsten | ATP binding cassette subfamily A member 12 | Homo sapiens |
| 3 | Herein, a series of Li2 S/transition metal (TM) nanocomposites are synthesized via a lithiothermic reduction reaction, and it is realized that the presence of TMs in Li2 S matrix can transform electrochemical behaviors of Li2 S. On the one hand, the incorporation of W, Mo, or Ti greatly increases electronic and ionic conductivity of Li2 S composites and inhibits the polysulfide dissolution via the TM S bond, effectively addressing the drawbacks of Li2 S cathodes. | Tungsten | ATP binding cassette subfamily A member 12 | Homo sapiens |
| 4 | Herein, a series of Li2 S/transition metal (TM) nanocomposites are synthesized via a lithiothermic reduction reaction, and it is realized that the presence of TMs in Li2 S matrix can transform electrochemical behaviors of Li2 S. On the one hand, the incorporation of W, Mo, or Ti greatly increases electronic and ionic conductivity of Li2 S composites and inhibits the polysulfide dissolution via the TM S bond, effectively addressing the drawbacks of Li2 S cathodes. | Tungsten | ATP binding cassette subfamily A member 12 | Homo sapiens |
| 5 | Herein, a series of Li2 S/transition metal (TM) nanocomposites are synthesized via a lithiothermic reduction reaction, and it is realized that the presence of TMs in Li2 S matrix can transform electrochemical behaviors of Li2 S. On the one hand, the incorporation of W, Mo, or Ti greatly increases electronic and ionic conductivity of Li2 S composites and inhibits the polysulfide dissolution via the TM S bond, effectively addressing the drawbacks of Li2 S cathodes. | Tungsten | ATP binding cassette subfamily A member 12 | Homo sapiens |
| 6 | In particular, Li2 S/W and Li2 S/Mo exhibit the highest ionic conductivity of solid-phase Li-ion conductors ever-reported: 5.44 x 10-2 and 3.62 x 10-2 S m-1 , respectively. | Tungsten | ATP binding cassette subfamily A member 12 | Homo sapiens |