Nathalie Ravet
27Patents
11h-index
18Co-inventors
68Inventor score
Filing activity: Mar 25, 1998 → Dec 4, 2012
Most-cited inventions
| Patent | Title | Area | Cited by | Status |
|---|---|---|---|---|
| US6085015A | Lithium insertion electrode materials based on orthosilicate derivatives | Emerging Cross-Sectional Technologies | 128 | Expired |
| US6855273B2 | Electrode materials with high surface conductivity | Emerging Cross-Sectional Technologies | 105 | Expired |
| US6365301B1 | Materials useful as electrolytic solutes | Emerging Cross-Sectional Technologies | 82 | Expired |
| US6962666B2 | Electrode materials with high surface conductivity | Emerging Cross-Sectional Technologies | 47 | Expired |
| US7457018B2 | Synthesis method for carbon material based on LiMPO4 | Emerging Cross-Sectional Technologies | 43 | Active |
| US7285260B2 | Synthesis method for carbon material based on LixM1-yM'(XO4)n | Emerging Cross-Sectional Technologies | 39 | Expired |
| US8506851B2 | Electrode materials with high surface conductivity | Emerging Cross-Sectional Technologies | 33 | Active |
| US6841304B2 | Materials useful as electrolytic solutes | Emerging Cross-Sectional Technologies | 28 | Expired |
| US7344659B2 | Electrode materials with high surface conductivity | Emerging Cross-Sectional Technologies | 20 | Expired |
| US7601318B2 | Method for synthesis of carbon-coated redox materials with controlled size | Emerging Cross-Sectional Technologies | 20 | Expired |
| US7815819B2 | Electrode materials with high surface conductivity | Emerging Cross-Sectional Technologies | 12 | Active |
| US8173049B2 | Electrode materials with high surface conductivity | Emerging Cross-Sectional Technologies | 9 | Active |
| US7534408B2 | Process for preparing electroactive insertion compounds and electrode materials obtained therefrom | Emerging Cross-Sectional Technologies | 9 | Expired |
| US6743877B1 | Electrode materials derived from polyquinonic ionic compounds and their use in electrochemical generators | Emerging Cross-Sectional Technologies | 8 | Expired |
| US8257616B2 | Electrode materials with high surface conductivity | Emerging Cross-Sectional Technologies | 7 | Active |
| US8506852B2 | Electrode materials with high surface conductivity | Emerging Cross-Sectional Technologies | 7 | Active |
| US7901812B2 | Materials useful as electrolytic solutes | Emerging Cross-Sectional Technologies | 3 | Active |
| US8647780B2 | Materials useful as electrolytic solutes | Emerging Cross-Sectional Technologies | 3 | Active |
| US8273481B2 | Process for preparing electroactive insertion compounds and electrode materials obtained therefrom | Emerging Cross-Sectional Technologies | 3 | Active |
| US8048565B2 | Process for preparing electroactive insertion compounds and electrode materials obtained therefrom | Emerging Cross-Sectional Technologies | 3 | Active |
| US7879492B2 | Electrode materials derived from polyquinonic ionic compounds and their use in electrochemical generators | Emerging Cross-Sectional Technologies | 2 | Expired |
| US8668842B2 | Method for heat treating a carbon coated alkali metal oxyanion electrode material | Emerging Cross-Sectional Technologies | 2 | Active |
| US7378194B2 | Materials useful as electrolytic solutes | Emerging Cross-Sectional Technologies | 1 | Expired |
| US8647778B2 | Process for preparing electroactive insertion compounds and electrode materials obtained therefrom | Emerging Cross-Sectional Technologies | 1 | Active |
| US8133618B2 | Process for preparing electroactive insertion compounds and electrode materials obtained therefrom | Emerging Cross-Sectional Technologies | 1 | Active |
Source: USPTO / EPO open patent data. Inventor disambiguation is heuristic; counts are objective bibliographic measures.