Lithium-Ion Batteries (Rechargeable Power)
High energy density rechargeable batteries widely used in portable electronics and electric vehicles.
Core metadata
- ID: lithium_ion_batteries_rechargeable_power
- Era: Modern
- First known date: 1991 (exact)
- Region: Japan, Sony commercialization and global battery industry
- Review status: source_checked
- Maturity: established
Prerequisites
- Advanced Chemistry (advanced_chemistry)
- Electricity (electricity)
- Electronics (electronics)
- Mass Production (mass_production)
- Mining (mining)
Dependents
Fields
Field lanes
- Energy Systems & Grid: Storage
Node sources
- The Nobel Prize in Chemistry 2019 (Nobel Prize, 2019, museum) • Supports: node, maturity
Prerequisite edge evidence
Edge/source evidence summary:
- Prerequisite edges: 5
- Average edge confidence: 68%
- Prerequisite sources: 5
- expert_inference: 5
| Prerequisite | Type | Confidence | Evidence level | Note | Sources |
|---|---|---|---|---|---|
| Advanced Chemistry (advanced_chemistry) | enabling | 68% | expert_inference | Advanced Chemistry provides a capability that enables this technology without being the only possible path. |
|
| Electricity (electricity) | enabling | 68% | expert_inference | Electricity provides a capability that enables this technology without being the only possible path. |
|
| Electronics (electronics) | enabling | 68% | expert_inference | Electronics provides a capability that enables this technology without being the only possible path. |
|
| Mining (mining) | enabling | 68% | expert_inference | Mining provides a capability that enables this technology without being the only possible path. |
|
| Mass Production (mass_production) | enabling | 68% | expert_inference | Mass Production provides a capability that enables this technology without being the only possible path. |
|
This page is generated from canonical era JSON and is indexable by URL.