[ABOUT]
ABOUT EVERMORE
[OVERVIEW]
[OVERVIEW]
We build energy systems that power the unseen.
We build energy systems that power the unseen.
Rooted in material science and driven by precision, Evermore develops and manufactures advanced semi-solid and silicon-based battery cells engineered for performance under pressure.
From research to refinement, we design architectures that are safer, more stable, and more durable — built for industries where reliability is non-negotiable.
Every cell reflects our philosophy of disciplined innovation: measured, exacting, and quietly confident.
Rooted in material science and driven by precision, Evermore develops and manufactures advanced semi-solid and silicon-based battery cells engineered for performance under pressure.
From research to refinement, we design architectures that are safer, more stable, and more durable — built for industries where reliability is non-negotiable.
Every cell reflects our philosophy of disciplined innovation: measured, exacting, and quietly confident.
QUICK LINKS:
QUICK LINKS:
Vision
To redefine how energy is stored, delivered, and trusted. We see a future where power is intelligent, efficient, and enduring — built not for show, but for service.
Craft
Every cell begins as a study in precision. Our process integrates deep research, empirical validation, and deliberate design — ensuring that every product meets the highest standards of safety, consistency, and performance.
Vision
To redefine how energy is stored, delivered, and trusted. We see a future where power is intelligent, efficient, and enduring — built not for show, but for service.
Craft
Every cell begins as a study in precision. Our process integrates deep research, empirical validation, and deliberate design — ensuring that every product meets the highest standards of safety, consistency, and performance.
Commitment
Our responsibility extends beyond performance. We pursue sustainability through upcycled silicon and controlled manufacturing systems designed for traceability, repeatability, and minimal waste.
Commitment
Our responsibility extends beyond performance. We pursue sustainability through upcycled silicon and controlled manufacturing systems designed for traceability, repeatability, and minimal waste.
[APPROACH]
[APPROACH]
From material science to manufacturable precision.
From material science to manufacturable precision.
Every Evermore process begins with data and ends with proof.
Our teams translate complex research into reproducible performance through iterative design, validation, and control. Each step—from formulation to assembly—is measured, verified, and refined until consistency becomes certainty.
01
Research
Every breakthrough begins with inquiry. We investigate the limits of material interactions, electrolytes, and electrode behavior to understand what enables true stability and energy density. Each insight informs the foundation of our cell architecture.
01
Research
Every breakthrough begins with inquiry. We investigate the limits of material interactions, electrolytes, and electrode behavior to understand what enables true stability and energy density. Each insight informs the foundation of our cell architecture.
01
Research
Every breakthrough begins with inquiry. We investigate the limits of material interactions, electrolytes, and electrode behavior to understand what enables true stability and energy density. Each insight informs the foundation of our cell architecture.
02
Experimentation
From lab bench to pilot line, we iterate relentlessly. Our prototypes undergo hundreds of validation cycles, collecting precise data on durability, conductivity, and thermal balance. Every experiment brings us closer to predictable excellence.
02
Experimentation
From lab bench to pilot line, we iterate relentlessly. Our prototypes undergo hundreds of validation cycles, collecting precise data on durability, conductivity, and thermal balance. Every experiment brings us closer to predictable excellence.
02
Experimentation
From lab bench to pilot line, we iterate relentlessly. Our prototypes undergo hundreds of validation cycles, collecting precise data on durability, conductivity, and thermal balance. Every experiment brings us closer to predictable excellence.
03
Refinement
Precision is an ongoing process. We translate complex research into manufacturable systems — refining composition, assembly, and process control to deliver power that performs dependably, in the field and at scale.
03
Refinement
Precision is an ongoing process. We translate complex research into manufacturable systems — refining composition, assembly, and process control to deliver power that performs dependably, in the field and at scale.
03
Refinement
Precision is an ongoing process. We translate complex research into manufacturable systems — refining composition, assembly, and process control to deliver power that performs dependably, in the field and at scale.
[CAPABILITIES]
Disciplines aligned for total control.
Evermore integrates material science, cell engineering, and advanced manufacturing under one continuous framework.
By maintaining control over every stage of development—chemistry, architecture, validation, and systems integration—we ensure that what’s proven in the lab performs in the field.
Cellcraft
/
Material Science
/
Manufacturing
/
Validation
/
Systems Integration
/
Our foundation begins at the cell level. We design, assemble, and validate next-generation battery cells — including semi-solid and silicon-based architectures — engineered for efficiency, thermal stability, and predictable performance. Every design iteration reflects controlled craftsmanship and empirical precision.
[CAPABILITIES]
Disciplines aligned for total control.
Evermore integrates material science, cell engineering, and advanced manufacturing under one continuous framework.
By maintaining control over every stage of development—chemistry, architecture, validation, and systems integration—we ensure that what’s proven in the lab performs in the field.
Cellcraft
/
Material Science
/
Manufacturing
/
Validation
/
Systems Integration
/
Our foundation begins at the cell level. We design, assemble, and validate next-generation battery cells — including semi-solid and silicon-based architectures — engineered for efficiency, thermal stability, and predictable performance. Every design iteration reflects controlled craftsmanship and empirical precision.
[CAPABILITIES]
Evermore integrates material science, cell engineering, and advanced manufacturing under one continuous framework.
By maintaining control over every stage of development—chemistry, architecture, validation, and systems integration—we ensure that what’s proven in the lab performs in the field.
Disciplines aligned for total control.
Cellcraft
Our foundation begins at the cell level. We design, assemble, and validate next-generation battery cells — including semi-solid and silicon-based architectures — engineered for efficiency, thermal stability, and predictable performance. Every design iteration reflects controlled craftsmanship and empirical precision.
Material Science
Innovation from the element up. Our R&D team studies and re-engineers materials to optimize conductivity, safety, and recyclability — integrating upcycled silicon and sustainable compounds into high-performance systems.
Manufacturing
At the ArC Center, our pilot production line bridges science and scalability. Each process is calibrated for repeatability, accuracy, and traceable quality — turning research into reliable output.
Validation
Every Evermore cell undergoes extensive validation: thermal, mechanical, and lifecycle testing to verify consistency and predictability in the field. Data guides every iteration.
Systems Integration
We partner with industries that demand trust — defense, aerospace, robotics, and infrastructure. Every Evermore system is tuned for precision, performance, and long-term reliability.
Cellcraft
Our foundation begins at the cell level. We design, assemble, and validate next-generation battery cells — including semi-solid and silicon-based architectures — engineered for efficiency, thermal stability, and predictable performance. Every design iteration reflects controlled craftsmanship and empirical precision.
Material Science
Innovation from the element up. Our R&D team studies and re-engineers materials to optimize conductivity, safety, and recyclability — integrating upcycled silicon and sustainable compounds into high-performance systems.
Manufacturing
At the ArC Center, our pilot production line bridges science and scalability. Each process is calibrated for repeatability, accuracy, and traceable quality — turning research into reliable output.
Validation
Every Evermore cell undergoes extensive validation: thermal, mechanical, and lifecycle testing to verify consistency and predictability in the field. Data guides every iteration.
Systems Integration
We partner with industries that demand trust — defense, aerospace, robotics, and infrastructure. Every Evermore system is tuned for precision, performance, and long-term reliability.
Cellcraft
Our foundation begins at the cell level. We design, assemble, and validate next-generation battery cells — including semi-solid and silicon-based architectures — engineered for efficiency, thermal stability, and predictable performance. Every design iteration reflects controlled craftsmanship and empirical precision.
Material Science
Innovation from the element up. Our R&D team studies and re-engineers materials to optimize conductivity, safety, and recyclability — integrating upcycled silicon and sustainable compounds into high-performance systems.
Manufacturing
At the ArC Center, our pilot production line bridges science and scalability. Each process is calibrated for repeatability, accuracy, and traceable quality — turning research into reliable output.
Validation
Every Evermore cell undergoes extensive validation: thermal, mechanical, and lifecycle testing to verify consistency and predictability in the field. Data guides every iteration.
Systems Integration
We partner with industries that demand trust — defense, aerospace, robotics, and infrastructure. Every Evermore system is tuned for precision, performance, and long-term reliability.
Cellcraft
Our foundation begins at the cell level. We design, assemble, and validate next-generation battery cells — including semi-solid and silicon-based architectures — engineered for efficiency, thermal stability, and predictable performance. Every design iteration reflects controlled craftsmanship and empirical precision.
Material Science
Innovation from the element up. Our R&D team studies and re-engineers materials to optimize conductivity, safety, and recyclability — integrating upcycled silicon and sustainable compounds into high-performance systems.
Manufacturing
At the ArC Center, our pilot production line bridges science and scalability. Each process is calibrated for repeatability, accuracy, and traceable quality — turning research into reliable output.
Validation
Every Evermore cell undergoes extensive validation: thermal, mechanical, and lifecycle testing to verify consistency and predictability in the field. Data guides every iteration.
Systems Integration
We partner with industries that demand trust — defense, aerospace, robotics, and infrastructure. Every Evermore system is tuned for precision, performance, and long-term reliability.
Cellcraft
Our foundation begins at the cell level. We design, assemble, and validate next-generation battery cells — including semi-solid and silicon-based architectures — engineered for efficiency, thermal stability, and predictable performance. Every design iteration reflects controlled craftsmanship and empirical precision.
Material Science
Innovation from the element up. Our R&D team studies and re-engineers materials to optimize conductivity, safety, and recyclability — integrating upcycled silicon and sustainable compounds into high-performance systems.
Manufacturing
At the ArC Center, our pilot production line bridges science and scalability. Each process is calibrated for repeatability, accuracy, and traceable quality — turning research into reliable output.
Validation
Every Evermore cell undergoes extensive validation: thermal, mechanical, and lifecycle testing to verify consistency and predictability in the field. Data guides every iteration.
Systems Integration
We partner with industries that demand trust — defense, aerospace, robotics, and infrastructure. Every Evermore system is tuned for precision, performance, and long-term reliability.
Cellcraft
Our foundation begins at the cell level. We design, assemble, and validate next-generation battery cells — including semi-solid and silicon-based architectures — engineered for efficiency, thermal stability, and predictable performance. Every design iteration reflects controlled craftsmanship and empirical precision.
Material Science
Innovation from the element up. Our R&D team studies and re-engineers materials to optimize conductivity, safety, and recyclability — integrating upcycled silicon and sustainable compounds into high-performance systems.
Manufacturing
At the ArC Center, our pilot production line bridges science and scalability. Each process is calibrated for repeatability, accuracy, and traceable quality — turning research into reliable output.
Validation
Every Evermore cell undergoes extensive validation: thermal, mechanical, and lifecycle testing to verify consistency and predictability in the field. Data guides every iteration.
Systems Integration
We partner with industries that demand trust — defense, aerospace, robotics, and infrastructure. Every Evermore system is tuned for precision, performance, and long-term reliability.
Cellcraft
Our foundation begins at the cell level. We design, assemble, and validate next-generation battery cells — including semi-solid and silicon-based architectures — engineered for efficiency, thermal stability, and predictable performance. Every design iteration reflects controlled craftsmanship and empirical precision.
Material Science
Innovation from the element up. Our R&D team studies and re-engineers materials to optimize conductivity, safety, and recyclability — integrating upcycled silicon and sustainable compounds into high-performance systems.
Manufacturing
At the ArC Center, our pilot production line bridges science and scalability. Each process is calibrated for repeatability, accuracy, and traceable quality — turning research into reliable output.
Validation
Every Evermore cell undergoes extensive validation: thermal, mechanical, and lifecycle testing to verify consistency and predictability in the field. Data guides every iteration.
Systems Integration
We partner with industries that demand trust — defense, aerospace, robotics, and infrastructure. Every Evermore system is tuned for precision, performance, and long-term reliability.
Cellcraft
Our foundation begins at the cell level. We design, assemble, and validate next-generation battery cells — including semi-solid and silicon-based architectures — engineered for efficiency, thermal stability, and predictable performance. Every design iteration reflects controlled craftsmanship and empirical precision.
Material Science
Innovation from the element up. Our R&D team studies and re-engineers materials to optimize conductivity, safety, and recyclability — integrating upcycled silicon and sustainable compounds into high-performance systems.
Manufacturing
At the ArC Center, our pilot production line bridges science and scalability. Each process is calibrated for repeatability, accuracy, and traceable quality — turning research into reliable output.
Validation
Every Evermore cell undergoes extensive validation: thermal, mechanical, and lifecycle testing to verify consistency and predictability in the field. Data guides every iteration.
Systems Integration
We partner with industries that demand trust — defense, aerospace, robotics, and infrastructure. Every Evermore system is tuned for precision, performance, and long-term reliability.
[PARTNERS]
[PARTNERS]
