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SolidAmp will change how humanity uses energy 

Here is why the SolidAmp™ solid-state battery changes everything.

A solid-state battery uses solid electrodes and a solid electrolyte instead of the liquid or polymer gel electrolytes found in current lithium-ion batteries. Solid-state batteries are safer while having higher energy densities and lower total operating costs. SolidAmp delivers these performance capabilities and more:

+  Higher safety margin:  No thermal runoff 
+  Highest energy density in the industry: >377.55 Wh/Kg 
+  Wider operating range: -40° C (-40° F) to 70°C (158° F) 
+  More charge cycles:  11,000 full charges and unlimited shallow charges

Longer life

Guaranteed for 25 years, and annual charge retention rate over 96% 

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SolidAmp is the only mass-produced solid-state battery storage technology on the market, delivering complete energy storage solutions before and after the meter. And Total Cost of Ownership (TOC) is 50% of the competition.  

The Problems with Current Lithium-ion Batteries

COST

~3,000 to 4,000 Cycles of full charge/discharge.

SHORT LIFETIME

Because the batteries are flammable and explosive, insurance costs are increased.

HIGH INSURANCE COSTS

Cooling system needed, increases maintenance and operating costs.

AIR CONDITIONING REQUIRED

The footprint is higher. For example, for 1MWh Energy Storage Systems (ESS), more than 10,000 batteries required in series and parallel. 

HIGH LAND COSTS

Total operating costs are higher due to lower energy storage efficiency, thermal runoff, AC requirement, etc.

HIGH OPERATING COST

More wiring and connection points, increasing maintenance costs. AC required for cooling.

HIGH MAINTENANCE COSTS

For example, for a 1MWh Energy Storage Systems (ESS), more than 10,000 batteries are required in series and parallel.

HIGH INSTALLATION COSTS

QUALITY

Made of toxic chemicals, requiring special care when disposed.

TOXIC

The battery is flammable, causing electric cars to explode when hit in certain ways.

FLAMMABLE

The footprint is higher due to large amount of batteries required.

HIGH FOOTPRINT

Estimated at 5- 6 years.

SHORTER LIFE EXPECTANCY

Batteries overheat and explode if charged too quickly.

OVERHEAT

Composed of liquid chemicals requiring rigid and expensive casing to prevent leakage.

EXPENSIVE CASING

The discharge retention rate is less than 82%. Cooling system required, increasing operational costs.

LOWER ENERGY STORAGE EFFICIENCY

PERFORMANCE

The specific energy is 240 Wh/kg for EV applications.

ENERGY DENSITY IS LOW

The chemicals underperform when temperatures are lower than 0°C (32°F) or higher than 50°C (122°F), limiting the applications.

UNDERPERFORM IN EXTREME TEMP.

Operational costs are increased due to thermal runoff and the life of the battery decreases.

THERMAL RUNOFF

Batteries discharge over 2-4 hours at rated power.

LOW DURATION DISCHARGE RATE

The Solution: Amptricity Solid-State Batteries

COST

Available in the following capacities: 500Ah, 750Ah, 1000Ah, 1500Ah, 2500Ah, 3000Ah.

LARGE BATTERY CAPACITY

11,000 Cycles of full charge. Unlimited amount of shallow charges.

FULL CHARGES

Fewer batteries required. For example, 1MWh energy storage system needs only 196 single cores in series.

LOWER INSTALLATION COSTS

Total operating costs are lowered due to higher energy storage efficiency, no thermal runoff, no AC, etc.

LOWER OPERATING COSTS

Less land required due to smaller footprint.

LOWER LAND COSTS

Because the batteries are non-flammable and non-explosive, insurance costs are lowered.

LOWER INSURANCE COSTS

Far less wiring and connection points, reducing maintenance costs.

LOWER MAINTENANCE COSTS

No cooling system needed; heat breaks down batteries quicker.

NO AIR CONDITIONING REQUIRED

QUALITY

The footprint can vary according to length, width and height based on client specifications.

SMALLER FOOTPRINT

The battery can be controlled at cell level. The batteries can be controlled either in parallel or in a series configuration.

CELL LEVEL CONTROL

Zero toxicity. 100% recyclable after 25-year life expectancy.

100% RECYCLABLE & NON-TOXIC

Capable of working under extreme weather conditions and flooding.

OPERATES UNDER WATER

Guaranteed 25 years. Design life is 30 to 35 years.

LONG LIFE EXPECTANCY

The discharge retention rate is above 96%. No cooling system required, reducing operational costs.

HIGH ENERGY STORAGE EFFICIENCY

Safe to install in many more locations, including gas stations.

NON-FLAMMABLE, NON-EXPLOSIVE

The maximum continuous discharge rate is more than 180C.

ULTRA HIGH DISCHARGE

PERFORMANCE

The ternary system core has a specific energy of weight > 377.55Wh/kg for EV applications.

HIGH ENERGY DENSITY

The battery operates at much wider temperature ranges between -40℃ (-40°F) and 70℃ (158°F).

ULTRA LOW & HIGH TEMP. RANGE

The internal resistance of the core is no more than 0.2 milliohms; the core does not heat, increasing safety. There is no leakage combustion.

HIGH SAFETY

Lower transportation costs, and reduction of weight in Electric Vehicles (EV).

LOWER WEIGHT

Amptricity batteries discharge over 8 hours at rated power.

LONG-DURATION DISCHARGE RATE

Operational costs are reduced due to no thermal runoff and the life of the battery increases.

NO THERMAL RUNOFF

Before the meter:

Utilities, Photovoltaics, and wind farms, energy storage facilities, etc. 

After the meter:

Commercial, industrial, and government facilities 

SolidAmp is the only mass-produced solid-state battery storage technology on the market, delivering complete energy storage solutions before and after the meter.  And Total Cost of Ownership (TOC) is 50% of the competition.  

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