Nickel mixed hydroxide
Sustainably produced, locally sourced low-carbon mixed metal hydroxide for high performance energy storage.
Designed to support cleaner battery supply chains and strengthen access to a critical mineral for energy storage.
Product snapshot
Specs
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Nickel mixed hydroxide
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Up to 40% nickel content and ultra-low aluminium
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Available in powder form
Benefits
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Low-waste, low carbon production
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Designed for high-performance NMC cathodes
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Cost-competitive
Properties that support energy density and performance
The characteristics of our nickel mixed hydroxide make it a sustainable choice for high-performance NMC cathodes and battery materials.
High nickel content
Up to 40% nickel
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Supports energy-dense cathode chemistries
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Valuable input for battery materials
Cleaner profile
Ultra-low aluminium content
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Fewer unwanted contaminants ​
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Supports material consistency
Ready for application
Available in powder form
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Suitable for downstream processing
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Precursor for lithium-ion battery cathodes
Responsible supply
Sustainably produced
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Low-waste, low carbon production
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Cost-competitive local supply
A critical minerals input for energy storage, our nickel mixed hydroxide offers a lower-carbon, high-purity option with ultra-low aluminium.
Energy
Produced locally, our nickel mixed hydroxide helps strengthen access to a cathode precursor material needed in battery manufacturing.
Manufacturing
Industrial applications
Why choose Aspiring Materials
Sourced from mining waste
Aspiring Materials nickel mixed hydroxide is derived from olivine, an abundant rock, typically discarded as waste in mining operations. This upcycling process avoids environmental degradation and negative community health impacts often associated with nickel mining.
Produced from a patented low-carbon process
Developed from decades of R&D, patented across world leading markets, the Aspiring Process produces no waste or carbon emissions. Our pilot plant is currently capable of processing 250kgs of olivine per day.
Developed in New Zealand, globally scalable
World-leading technology developed in Christchurch, New Zealand our elegant process design makes it easy to scale wherever critical minerals are needed.
