Power for the edge of what’s possible.
Space
Power for the edge of what’s possible.
Space
[APPLICATIONS]
[APPLICATIONS]
Satellites, deep-space robotics, orbital systems, propulsion modules
Satellites, deep-space robotics, orbital systems, propulsion modules
[ARCHITECTURE]
[ARCHITECTURE]
ELVION-S
ELVION-S
[ENERGY PROFILE]
[ENERGY PROFILE]
Ultra-stable under radiation and vacuum, high energy-to-weight ratio, long-cycle retention
Ultra-stable under radiation and vacuum, high energy-to-weight ratio, long-cycle retention
[Information]
[Information]
In space, there is no margin for error. Every gram, every degree, and every cycle defines mission success.
Evermore’s silicon-based and semi-solid cell architectures are engineered for the vacuum—combining high energy density with exceptional stability across extreme temperature and radiation conditions.
From orbital satellites to deep-space robotics, our cells deliver consistent output and predictable degradation profiles, enabling systems to operate autonomously for years without maintenance or failure.
In space, there is no margin for error. Every gram, every degree, and every cycle defines mission success.
Evermore’s silicon-based and semi-solid cell architectures are engineered for the vacuum—combining high energy density with exceptional stability across extreme temperature and radiation conditions.
From orbital satellites to deep-space robotics, our cells deliver consistent output and predictable degradation profiles, enabling systems to operate autonomously for years without maintenance or failure.
