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Drive Farther.
Carry More.
Carry More.
Volta Structural Battery boosts electric transport with high-density, load-bearing power modules, without sacrificing payload or range.
LET’S GET CONNECTED
LET’S GET CONNECTED
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Payload
Reduction
Reduction
Conventional batteries eat into cargo capacity and increase axle loads.
Range
Limitations
Limitations
Battery bulk and weight cap how far electric vehicles can go.
Design
Constraints
Constraints
Rigid, non-structural battery formats limit how vehicles are built and upgraded.
Payload
Reduction
Reduction
Conventional batteries eat into cargo capacity and increase axle loads.
Range
Limitations
Limitations
Battery bulk and weight cap how far electric vehicles can go.
Design
Constraints
Constraints
Rigid, non-structural battery formats limit how vehicles are built and upgraded.
Payload
Reduction
Reduction
Conventional battery packs reduce room for hosted payloads.
Range
Limitations
Limitations
Uncapable of meeting the most demanding mission requirements
Design
Constraints
Constraints
Standard Li-ion batteries increase fire and venting hazards during operation.
Payload
Reduction
Reduction
Conventional batteries eat into cargo capacity and increase axle loads.
Range
Limitations
Limitations
Battery bulk and weight cap how far electric vehicles can go.
Design
Constraints
Constraints
Rigid, non-structural battery formats limit how vehicles are built and upgraded.
STRUCTURAL BATTERY
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STRUCTURAL BATTERY
INTEGRATION CASE STUDIES
INTEGRATION CASE STUDIES
LET’S ANALYZE YOUR CASE
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Energy-Storing
Trailers
Trailers
Panels integrated into trailer walls act as additional battery units, without reducing space.
e-Bus Floor
Panels
Panels
Battery modules in the flooring reduce center of gravity and open cabin volume.
ADVANTAGES FOR HEAVY TRANSPORTATION
Range Extension
+50%
More energy, less massive deal for long-haul EVs.
Payload Loss
0
Integrated panels maintain cargo volume while adding power.
Battery Weight
-30%
Structural integration removes redundant housing and framing.
Power Surge
+500%
Na-ion architecture supports fast power delivery in demanding use cases.
+50%
Range Extension
More energy, less massive deal for long-haul EVs.
0
Payload
Loss
Loss
Integrated panels maintain cargo volume while adding power.
-30%
Battery Weight
Revolutionize energy storage by integrating battery.
+500%
Power
Surge
Surge
Na-ion architecture supports fast power delivery in demanding use cases.
Internal
Volume
Volume
+30%
Gain space for payload by removing conventional battery modules.
Launch
Mass
Mass
-20%
Structural integration reduces protective enclosures and redundant supports.
power
output
output
+200%
Na-ion chemistry enables higher peak delivery for mission-critical loads.
Energy
Density
Density
+60%
Optimized geometry and materials exceed traditional Li-ion satellite packs.
+30%
Internal
Volume
Volume
Gain space for payload by removing conventional battery modules.
-20%
Launch
Mass
Mass
Structural integration reduces protective enclosures and redundant supports.
+200%
power
output
output
Na-ion chemistry enables higher peak delivery for mission-critical loads.
+60%
Energy
Density
Density
Optimized geometry and materials exceed traditional Li-ion satellite packs.
+50%
Range Extension
More energy, less massive deal for long-haul EVs.
0
Payload Loss
Integrated panels maintain cargo volume while adding power.
-30%
Battery Weight
Structural integration removes redundant housing and framing.
+500%
Power Surge
Na-ion architecture supports fast power delivery in demanding use cases.
ADVANTAGES FOR SPACE
structural
mass
mass
-25%
Replace battery packs and casings with load-bearing panels.
flight
range
range
+15%
Lighter structure extends distance or enables additional payload.
System
Volume
Volume
-40%
Panelized format eliminates need for separate compartments.
Energy-to-Mass
Ratio
Ratio
+70%
Aerospace-grade carbon skins and optimized geometry boost overall efficiency.
-25%
structural
mass
mass
Replace battery packs and casings with load-bearing panels.
+15%
flight
range
range
Lighter structure extends distance or enables additional payload.
-40%
System
Volume
Volume
Panelized format eliminates need for separate compartments.
+70%
Energy-to-Mass
Ratio
Ratio
Aerospace-grade carbon skins and optimized geometry boost overall efficiency.
-25%
structural mass
Replace battery packs and casings with load-bearing panels.
+15%
flight range
Lighter structure extends distance or enables additional payload.
-40%
System Volume
Panelized format eliminates need for separate compartments.
+70%
Energy-to-Mass Ratio
Aerospace-grade carbon skins and optimized geometry boost overall efficiency.
+30%
Internal Volume
Gain space for payload by removing conventional battery modules.
-20%
Launch Mass
Structural integration reduces protective enclosures and redundant supports.
+200%
power output
Na-ion chemistry enables higher peak delivery for mission-critical loads.
+60%
Energy Density
Optimized geometry and materials exceed traditional Li-ion satellite packs.
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TRADITIONAL BATTERY PACK WITH SPECIAL CHIMESTRY
+50%
Range Extension
More energy, less massive deal for long-haul EVs.
0
Payload Loss
Integrated panels maintain cargo volume while adding power.
-30%
Battery Weight
Structural integration removes redundant housing and framing.
+500%
Power Surge
Na-ion architecture supports fast power delivery in demanding use cases.
Tailored Power
for Mobile
Coverings
for Mobile
Coverings
READ THE FULL ARTICLE
Volta and Marcolin partnered to electrify commercial vehicle coverings with a high-performance sodium-ion battery pack. The 24V – 160Ah Na-Ion pack was designed to power motorized textile structures (like automated coverings on transport units), reducing dependency on truck engines and cutting fuel use.
3.84 kWh in 45 kg
+1,000 Cycles with Voltage Stability
EXAMPLE 1
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MAIN PARTNER
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MAIN PARTNER
FREQUENT ASKED
QUESTIONS
QUESTIONS
Revolutionize energy storage by integrating battery technology into structural components.
ASK YOUR QUESTION
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FREQUENT ASKED
QUESTIONS
QUESTIONS
Revolutionize energy storage by integrating battery technology into structural components.
ASK YOUR QUESTION
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FREQUENT ASKED
QUESTIONS
QUESTIONS
Revolutionize energy storage by integrating battery technology into structural components.
ASK YOUR QUESTION
FREQUENT ASKED
QUESTIONS
QUESTIONS
GET VOLTA BATTERY
Revolutionize energy storage by integrating
battery technology into structural components.
battery technology into structural components.
HOW IS LOREM IPSUM 1?
HOW IS LOREM IPSUM 1?
HOW IS LOREM IPSUM 1?
HOW IS LOREM IPSUM 1?
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Revolutionize energy storage by integrating battery technology into structural components.
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Revolutionize energy storage by integrating battery technology into structural components.
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Revolutionize energy storage by integrating battery technology into structural components.
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Revolutionize energy storage by integrating battery technology into structural components.
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Revolutionize energy storage by integrating battery technology into structural components.
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Revolutionize energy storage by integrating battery technology into structural components.
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Revolutionize energy storage by integrating battery technology into structural components.
Volta Structural Energy delivers high-performance energy solutions with greater flexibility and efficiency.
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