EQORE has raised $1,700,000 in their Seed Round, backed by the Massachusetts Clean Energy Center (MassCEC), Henry Ford III of Ford Motor Company, and Jonathan Kraft of The Kraft Group. Founded by Valeriia Tyshchenko Nin, Donald Groh, and Jorge Nin, EQORE is building a new generation of clean, efficient, and scalable battery recycling infrastructure at precisely the moment the world needs it. As electrification accelerates globally, the supply chain for critical materials - lithium, cobalt, nickel, rare earth elements - is under massive strain. Yet most recycling methods remain inefficient, wasteful, and environmentally damaging. EQORE is emerging as a next-generation alternative: a recycling process engineered to recover materials at higher yields, lower cost, and with dramatically less environmental impact. In an ecosystem where demand greatly outpaces supply, EQORE isn’t just solving a waste problem - it’s solving a resource problem.

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The Problem: A Battery Boom Without a Circular System

Global electrification is expanding at a pace that far exceeds the industry’s ability to recycle batteries sustainably. EV adoption rises each year, grid storage systems are multiplying, and consumer electronics continue to scale. But the end-of-life reality is still broken. Current recycling pathways rely heavily on high-heat smelting or chemically harsh hydrometallurgical processes that generate toxic waste and leave much of the recoverable material lost or contaminated. This gap between battery production and battery recycling has created a looming resource crisis. EQORE’s founders recognized early that a circular battery economy cannot exist without a dramatically better recovery process - one that prioritizes purity, safety, and scalability. Their platform is designed to close the loop by delivering cleaner extractions, higher recovery rates, and a more cost-effective pathway for manufacturers to reclaim critical materials.

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A New Model: Clean Extraction With Higher Recovery and Lower Operational Footprint

Instead of relying on legacy high-temperature or chemically intensive methods, EQORE’s process leverages an advanced, cleaner extraction technique that recovers valuable materials more efficiently while minimizing environmental impact. The system is engineered to reduce energy consumption, reduce chemical waste, and deliver higher-purity outputs that can be reintegrated into new battery supply chains with minimal processing. This approach positions EQORE as a critical enabler for automakers, energy storage companies, and battery manufacturers who must now meet stricter sustainability mandates and rapidly expand recycling capacity. EQORE isn’t just improving recycling - it is rewriting how recycled materials reintegrate into the electrification economy.

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A Founder Team Built for a Market Under Structural Pressure

Valeriia Tyshchenko Nin, Donald Groh, and Jorge Nin bring a multidisciplinary approach to a challenge that demands both scientific and industrial fluency. Their backgrounds in materials science, engineering, and product-scale operations give EQORE a unique ability to innovate while also building for real-world deployment. The team deeply understands both the chemistry behind advanced extraction and the logistical realities of operating high-throughput recycling facilities. This balance - scientific rigor and practical execution - positions EQORE to scale faster than many research-heavy competitors who struggle to bring lab innovations into industrial environments.

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In Clean Tech, the Biggest Breakthroughs Come From Fixing What Happens After Innovation, Not Before

The limiting factor in electrification is no longer battery innovation - it’s the system that handles batteries after they’re used.

Breakthroughs in battery chemistry continue, but without a pipeline that sustainably recovers and repurposes critical materials, the industry bottleneck simply moves downstream. EQORE understands that the greatest leverage point in the battery lifecycle isn’t production - it’s recycling efficiency. By focusing on the post-use phase, EQORE positions itself at the point of highest compounding impact: enabling cheaper manufacturing, reducing raw material shortages, strengthening domestic supply chains, and aligning with global environmental targets. This is the layer where clean tech stops being aspirational and becomes operational.

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Investor Signal: Strategic Alignment Around Clean Energy Infrastructure

The participation of MassCEC, alongside strategic figures like Henry Ford III and Jonathan Kraft, sends a clear message about market readiness. These investors recognize that battery recycling is not a niche - it is foundational infrastructure for the next century of mobility and clean energy. Their backing reinforces EQORE’s position as a critical enabler in a market shifting rapidly toward circularity, resilience, and material independence. This investor profile signals confidence not only in EQORE’s technology but in its ability to scale into a key supplier for EV manufacturers, fleet operators, and grid storage developers.

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A Market Where Electrification Has Outpaced Materials Supply  -  and EQORE Is Positioned at the Solution Layer

Demand for clean and efficient battery recycling is accelerating across global supply chains. Recent data highlights the urgency:

• Global EV sales are projected to exceed 30 million units annually by 2030.
• Lithium demand is expected to grow 6–7x by 2035, outpacing new mining capacity.
• Over 12 million tons of lithium-ion batteries are expected to reach end-of-life annually by 2030.
• Only 5–8% of lithium today is recycled at usable quality - representing massive lost value.
• Governments worldwide are adopting strict recycling mandates, with the EU requiring up to 95% recovery of certain metals.

The world cannot mine its way to full electrification. Recycling is no longer optional - it is the only viable path to sustainable growth. EQORE’s cleaner, more efficient extraction model arrives at a moment when the industry is hungry for scalable solutions that balance environmental responsibility with industrial performance.

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Why EQORE Is Positioned to Win

EQORE’s advantage is structural. It tackles the root problem - material recovery quality - rather than bolting incremental improvements onto legacy methods. Its process yields higher-purity materials that can re-enter battery manufacturing pipelines faster, cheaper, and with fewer environmental constraints. As governments tighten mandates and manufacturers seek reliable recycled feedstock, EQORE becomes the partner of choice for sustainable growth. The combination of technical innovation, strategic investor support, and industry timing positions EQORE to define the next era of circular battery infrastructure.

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Final Thoughts

Recycling is the unsung backbone of electrification - and EQORE is building the system to make it sustainable, scalable, and economically viable. With a $1.7M Seed raise, a multidisciplinary founding team, and a market experiencing unprecedented demand for circular materials, EQORE is stepping into a role that will shape the future of energy and mobility. This raise signals confidence not just in the company’s technology, but in its ability to lead the clean battery recovery movement from the ground up.