Leading Renewed Batteries

Domestically Sourced, Processed & Assembled

electrifying the future with minimal impact & world class products

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Sustainably Power Your Adventure

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RENEWABLES

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A Circular Economy Matters.

Fully Tested Cells and Modules

We have an assortment of loose cells and modules. We fully test every cell and module that we offer for sale, so you can be confident that you are buying quality energy storage components.

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Core Benefits

Leading Power

Our products have gone through a propriety renewal process and are among the most reliable second-life batteries in the industry. 

Cost Savings

Our process allows us to reduce the overall cost of commercial grade lithium-ion batteries and share that savings with our customers. 

Sustainably Effective 

Our testing and manufacturing process can save millions of wasted energy and critical minerals utilizing high-quality renewed cells.


Mac V., Ameresco

"The 100AH renewed lithium iron phosphate powerpack is proving to be an amazing alternative to heavy, low energy-density lead acid. I appreciate that I can contribute to reducing overall energy footprint by using a Renewed Powerpack versus expensive new batteries. In addition to reasonable cost, the battery weight and energy capacity make these a great choice for an application like mine."

About Us

Higher Wire Inc. is revolutionizing the way the world views and uses sustainable power. We specialize in designing and manufacturing lithium batteries at our facility in Phoenix, AZ, using domestically-sourced cells and components. We're also solving environmental and supply-chain concerns by creating innovative technologies that make energy storage and generation more cost-effective and accessible, such as our patent-pending process that gives new life to old batteries. We safely disassemble used lithium battery packs and evaluate the individual cells within. Those which meet our strict grading criteria are repurposed into other forms of energy storage, which requires less energy and generates no chemical waste as compared to end-of-life recycling.