Michael Edward Badding
93Patents
18h-index
112Co-inventors
87Inventor score
Filing activity: Aug 18, 1994 → Mar 20, 2025
Most-cited inventions
| Patent | Title | Area | Cited by | Status |
|---|---|---|---|---|
| US10155667B2 | System, process and related sintered article | Chemistry; Metallurgy | 51 | Active |
| US6428920B1 | Roughened electrolyte interface layer for solid oxide fuel cells | Emerging Cross-Sectional Technologies | 48 | Expired |
| US6852436B2 | High performance solid electrolyte fuel cells | Emerging Cross-Sectional Technologies | 37 | Expired |
| US6623881B2 | High performance solid electrolyte fuel cells | Emerging Cross-Sectional Technologies | 36 | Expired |
| US10766165B2 | Manufacturing line, process, and sintered article | Chemistry; Metallurgy | 34 | Active |
| US10967539B2 | Manufacturing line, process, and sintered article | Chemistry; Metallurgy | 32 | Active |
| US7947213B2 | Method of making a textured electrolyte sheet for a fuel cell device | Emerging Cross-Sectional Technologies | 30 | Active |
| US11014822B2 | System, process and related sintered article | Chemistry; Metallurgy | 29 | Active |
| US10581115B2 | Electrolyte for a solid-state battery | Emerging Cross-Sectional Technologies | 29 | Active |
| US6630267B2 | Solid oxide fuel cells with symmetric composite electrodes | Emerging Cross-Sectional Technologies | 28 | Expired |
| US10283811B2 | Micromachined electrolyte sheet | Emerging Cross-Sectional Technologies | 28 | Active |
| US11111155B1 | System, process and related sintered article | Chemistry; Metallurgy | 27 | Active |
| US10396396B2 | Lithium-ion conductive garnet and method of making membranes thereof | Emerging Cross-Sectional Technologies | 25 | Active |
| US10026990B2 | Lithium-ion conductive garnet and method of making membranes thereof | Emerging Cross-Sectional Technologies | 25 | Active |
| US11148321B2 | Polycrystalline waveguide | Chemistry; Metallurgy | 25 | Active |
| US10486332B2 | Manufacturing system, process, article, and furnace | Chemistry; Metallurgy | 24 | Active |
| US10875212B2 | Manufacturing line, process, and sintered article | Chemistry; Metallurgy | 24 | Active |
| US7494732B2 | Fuel cell device with varied active area sizes | Emerging Cross-Sectional Technologies | 19 | Active |
| US6551735B2 | Honeycomb electrode fuel cells | Emerging Cross-Sectional Technologies | 18 | Expired |
| US9502729B2 | Ion-conducting composite electrolyte comprising path-engineered particles | Emerging Cross-Sectional Technologies | 13 | Active |
| US7378173B2 | Fuel cells with enhanced via fill compositions and/or enhanced via fill geometries | Emerging Cross-Sectional Technologies | 12 | Expired |
| US10211481B2 | Stabilized solid garnet electrolyte and methods thereof | Emerging Cross-Sectional Technologies | 12 | Active |
| US5919571A | Counterelectrode layer | Physics | 12 | Expired |
| US7470640B2 | Glass-ceramic seals for use in solid oxide fuel cells | Emerging Cross-Sectional Technologies | 9 | Active |
| US5560752A | Process for activation of metal hydrides | Emerging Cross-Sectional Technologies | 7 | Expired |
Source: USPTO / EPO open patent data. Inventor disambiguation is heuristic; counts are objective bibliographic measures.