Exploration through precision.
TECHNOLOGY
Exploration through precision.
TECHNOLOGY
[TECHNOLOGY]
Engineered for scalable performance.
The ELVION™ Platform represents Evermore’s latest generation of semi-solid lithium technology, uniting liquid-phase conductivity with solid-state safety.
Developed for real-world deployment, ELVION cells deliver high energy density, rapid charge capability, and consistent performance across scales, from compact systems to full aerospace propulsion.
The ELVION™ Platform represents Evermore’s latest generation of semi-solid lithium technology, uniting liquid-phase conductivity with solid-state safety.
Developed for real-world deployment, ELVION cells deliver high energy density, rapid charge capability, and consistent performance across scales, from compact systems to full aerospace propulsion.
[CORE INNOVATIONS]
Disciplined Innovations. Defined by Design.
Every ELVION cell reflects a convergence of advanced materials, interface engineering, and precision manufacturing, optimized for endurance, scalability, and safety.
[01]
Semi-Solid Conductivity
A hybrid electrolyte system merging liquid-phase ion mobility with solid-state mechanical stability.
The result: sustained conductivity under compression, stress, and temperature variation — enabling higher energy density without compromising safety.
[02]
Interface Engineering
At the core of every ELVION cell lies an optimized electrolyte–electrode interface.
Proprietary coatings and additive systems stabilize silicon expansion and suppress dendrite formation, preserving structure and performance over thousands of cycles.
[03]
Precision Manufacturing
Every layer within the ELVION platform is assembled under micron-level tolerances and verified through impedance mapping and optical inspection.
Manufacturing discipline ensures absolute repeatability, where performance isn’t measured per cell, but per process.
[04]
Scalable System Architecture
Designed from the ground up for modular integration, from compact UAV systems to high-capacity propulsion packs.
The ELVION platform’s consistent geometry and chemistry simplify scaling without redesign, bridging R&D precision with field-ready reliability.
[05]
Data-Driven Validation
Every innovation is proven through telemetry, analytics, and long-term cycling data gathered at the ArC Center.
Continuous validation refines both material behavior and manufacturing precision — closing the loop between experiment and execution.
[CORE INNOVATIONS]
Disciplined Innovations. Defined by Design.
Every ELVION cell reflects a convergence of advanced materials, interface engineering, and precision manufacturing, optimized for endurance, scalability, and safety.
[01]
Semi-Solid Conductivity
A hybrid electrolyte system merging liquid-phase ion mobility with solid-state mechanical stability.
The result: sustained conductivity under compression, stress, and temperature variation — enabling higher energy density without compromising safety.
[02]
Interface Engineering
At the core of every ELVION cell lies an optimized electrolyte–electrode interface.
Proprietary coatings and additive systems stabilize silicon expansion and suppress dendrite formation, preserving structure and performance over thousands of cycles.
[03]
Precision Manufacturing
Every layer within the ELVION platform is assembled under micron-level tolerances and verified through impedance mapping and optical inspection.
Manufacturing discipline ensures absolute repeatability, where performance isn’t measured per cell, but per process.
[04]
Scalable System Architecture
Designed from the ground up for modular integration, from compact UAV systems to high-capacity propulsion packs.
The ELVION platform’s consistent geometry and chemistry simplify scaling without redesign, bridging R&D precision with field-ready reliability.
[05]
Data-Driven Validation
Every innovation is proven through telemetry, analytics, and long-term cycling data gathered at the ArC Center.
Continuous validation refines both material behavior and manufacturing precision — closing the loop between experiment and execution.
[CORE INNOVATIONS]
Disciplined Innovations. Defined by Design.
Every ELVION cell reflects a convergence of advanced materials, interface engineering, and precision manufacturing, optimized for endurance, scalability, and safety.
[01]
Semi-Solid Conductivity
A hybrid electrolyte system merging liquid-phase ion mobility with solid-state mechanical stability.
The result: sustained conductivity under compression, stress, and temperature variation, enabling higher energy density without compromising safety.
[02]
Interface Engineering
At the core of every ELVION cell lies an optimized electrolyte–electrode interface.
Proprietary coatings and additive systems stabilize silicon expansion and suppress dendrite formation, preserving structure and performance over thousands of cycles.
[03]
Precision Manufacturing
Every layer within the ELVION platform is assembled under micron-level tolerances and verified through impedance mapping and optical inspection.
Manufacturing discipline ensures absolute repeatability, where performance isn’t measured per cell, but per process.
[04]
Scalable System Architecture
Designed from the ground up for modular integration, from compact UAV systems to high-capacity propulsion packs.
The ELVION platform’s consistent geometry and chemistry simplify scaling without redesign, bridging R&D precision with field-ready reliability.
[05]
Data-Driven Validation
Every innovation is proven through telemetry, analytics, and long-term cycling data gathered at the ArC Center.
Continuous validation refines both material behavior and manufacturing precision, closing the loop between experiment and execution.
[CORE INNOVATIONS]
Disciplined Innovations. Defined by Design.
Every ELVION cell reflects a convergence of advanced materials, interface engineering, and precision manufacturing, optimized for endurance, scalability, and safety.
[01]
Semi-Solid Conductivity
A hybrid electrolyte system merging liquid-phase ion mobility with solid-state mechanical stability.
The result: sustained conductivity under compression, stress, and temperature variation, enabling higher energy density without compromising safety.
[02]
Interface Engineering
At the core of every ELVION cell lies an optimized electrolyte–electrode interface.
Proprietary coatings and additive systems stabilize silicon expansion and suppress dendrite formation, preserving structure and performance over thousands of cycles.
[03]
Precision Manufacturing
Every layer within the ELVION platform is assembled under micron-level tolerances and verified through impedance mapping and optical inspection.
Manufacturing discipline ensures absolute repeatability, where performance isn’t measured per cell, but per process.
[04]
Scalable System Architecture
Designed from the ground up for modular integration, from compact UAV systems to high-capacity propulsion packs.
The ELVION platform’s consistent geometry and chemistry simplify scaling without redesign, bridging R&D precision with field-ready reliability.
[05]
Data-Driven Validation
Every innovation is proven through telemetry, analytics, and long-term cycling data gathered at the ArC Center.
Continuous validation refines both material behavior and manufacturing precision, closing the loop between experiment and execution.
[BY THE NUMBERS]
[BY THE NUMBERS]
Quantified. Validated. Proven.
Performance proven through data-driven validation at the ArC Center.
Performance proven through data-driven validation at the ArC Center.
350 Wh/kg
High energy density (~25–30% higher than conventional Li-ion cells) achieved through Evermore’s hybrid electrolyte system combining liquid-phase conductivity with solid-state stability.
350 Wh/kg
High energy density (~25–30% higher than conventional Li-ion cells) achieved through Evermore’s hybrid electrolyte system combining liquid-phase conductivity with solid-state stability.
350 Wh/kg
High energy density (~25–30% higher than conventional Li-ion cells) achieved through Evermore’s hybrid electrolyte system combining liquid-phase conductivity with solid-state stability.
< 20 min.
Optimized electrolyte design and interface engineering enable rapid ion transport and ultra-fast charging without compromising safety.
< 20 min.
Optimized electrolyte design and interface engineering enable rapid ion transport and ultra-fast charging without compromising safety.
< 20 min.
Optimized electrolyte design and interface engineering enable rapid ion transport and ultra-fast charging without compromising safety.
500+ cycles
Maintains structural and electrochemical stability through 500 charge–discharge cycles, demonstrating exceptional reliability for mission-critical applications.
500+ cycles
Maintains structural and electrochemical stability through 500 charge–discharge cycles, demonstrating exceptional reliability for mission-critical applications.
500+ cycles
Maintains structural and electrochemical stability through 500 charge–discharge cycles, demonstrating exceptional reliability for mission-critical applications.
3.8 V
Consistent output voltage ensures compatibility with aerospace and defense power systems while maximizing efficiency and range.
3.8 V
Consistent output voltage ensures compatibility with aerospace and defense power systems while maximizing efficiency and range.
3.8 V
Consistent output voltage ensures compatibility with aerospace and defense power systems while maximizing efficiency and range.
[PLATFORM]
[PLATFORM]
The ELVION Lineup.
The ELVION Lineup.
Scalable energy architectures, built for precision across every mission profile.
Scalable energy architectures, built for precision across every mission profile.
ELVION-S
Click to learn more. Compact-class semi-solid cell optimized for lightweight endurance, rapid charge, and high cycle stability. Specs: 3.8 V | 5 Ah | 350 Wh/kg
ELVION-S
Click to learn more. Compact-class semi-solid cell optimized for lightweight endurance, rapid charge, and high cycle stability. Specs: 3.8 V | 5 Ah | 350 Wh/kg
ELVION-S
Click to learn more. Compact-class semi-solid cell optimized for lightweight endurance, rapid charge, and high cycle stability. Specs: 3.8 V | 5 Ah | 350 Wh/kg
ELVION-X
Click to learn more. High-capacity semi-solid architecture engineered for propulsion and sustained power under mission-critical load. Specs: 3.8 V | 60 Ah | 350 Wh/kg
ELVION-X
Click to learn more. High-capacity semi-solid architecture engineered for propulsion and sustained power under mission-critical load. Specs: 3.8 V | 60 Ah | 350 Wh/kg
ELVION-X
Click to learn more. High-capacity semi-solid architecture engineered for propulsion and sustained power under mission-critical load. Specs: 3.8 V | 60 Ah | 350 Wh/kg
