We've got a special treat for Metalplant's supporters to celebrate our successful processing of our hyperaccumulator plant biomass into pure nickel products. We are making available to the public some small quantities of hyperaccumulator plant-derived nickel HyperNickel™, carbon dioxide removal credits through enhanced rock weathering HyperWeathering™ CDR, and the combined product of the two a carbon-negative nickel, NegativeNickel™. And as a bonus (scroll down on page) and you'll see Silicate Valley Olivine™ Standard material, we have released some "Founders Edition" options that comes with comes with a stand as part of the "standard". Also have some small pocket ones available for fun :) We have made available for sale: - NegativeNickel™ : Carbon-Negative Nickel with the Carbon Removal from Enhanced Rock Weathering (Salt or Ingot), (1Ni:200CDR ratio) - HyperNickel™ : "Green" Nickel Salt or Ingots Produced by Hyperaccumulator Plants - HyperWeathering™ CDR : Carbon Dioxide Removal Credits produced through Enhanced Rock Weathering combined with Phytomining. - Silicate Valley™ Olivine Standard Founders Edition: Olivine specimens hand-selected by a founder of the company from our quarry and innovation hub surrounded by silicate minerals that we call Silicate Valley. https://lnkd.in/e9VCpKMU
Metalplant
Environmental Services
Wilmington, DE 407 followers
Metalplant uses phytomining with hyperaccumulators combined w/ enhanced rock weathering (ERW) to produce nickel and CDR.
About us
Metalplant is phytomining nickel while removing carbon dioxide through the enhanced rock weathering of olivine.
- Website
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Metalplant.com
External link for Metalplant
- Industry
- Environmental Services
- Company size
- 11-50 employees
- Headquarters
- Wilmington, DE
- Type
- Privately Held
- Founded
- 2021
Locations
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Primary
Wilmington, DE 19808, US
Employees at Metalplant
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Laura Wasserson
COO, Mission-Based Strategy and Execution
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Eric Matzner
CEO of Metalplant: Using Plants To Mine Nickel While Removing Carbon Dioxide With Rocks
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Sahit Muja
Founder & CEO at Albanian Minerals, Green Minerals, Global Mining, Co-Founder at Metalplant, Investor, Forbes Business Council.
Updates
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Thanks to Unearthed for identifying Metalplant as a part of the next wave in mining innovation.
"The mining sector's push for fully electric fleets has faced challenges in scaling and is still in commercial development in various use cases. Hybrid drivetrains, however, are gaining momentum with OEMs in the last two years. It's exciting to see Switch Technologies working on these for the mining workhorse, the Toyota Landcruiser ute," shares Jake in the Unearthed team. For those curious about the technologies that may power the next wave of mining innovation, sign up for our weekly newsletter here: https://lnkd.in/g2WqxY2V The top innovators who came across our desk this week: Switch Technologies (Jan Haak) - XNO battery technologies for industrial hybrid 4x4 vehicles. RockDataWorks (Marinus Dalm) - Experts in the field of sensor-based material analysis including ore sorting. Metalplant (Eric Matzner) - Phytomining for enhanced rock weathering (ERW) to produce nickel. Prescott Environmental Luminescence Laboratory (Piers Lincoln) - Novel Fluorescence technology for rapid, non-contact identification of minerals and chemicals in real time. Dataverso (Amaia Navarro Plaza) - Improving geological measurement and analysis with virtual reality. Have an amazing new idea or concept that could apply to the mining sector, share it with us here: https://lnkd.in/gXn34Qu7 #miningtech #mininginnovation #orebodyknowledge
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Metalplant is excited to have been featured in a story titled "Phytomining: How to mine metals from the soil using plants" in the German language newspaper Future_zone's Science section (google translate post link in the comments).
Im malerischen, gebirgigen Norden Albaniens gibt es leuchtend gelbe Felder. Auf den ersten Blick erinnern sie an Rapsplantagen, bei genauerem Hinschauen erkennt man dort aber krautige, buschige Pflanzen, die man von anderen Feldern sonst nicht kennt – das Mauersteinkraut. Das Kraut zieht das Metall Nickel aus dem Boden. Nach dem Ernten und Trocknen wird die Pflanze verbrannt und aus der Asche dann das Nickel extrahiert. „Man weiß nicht genau, was der ökologische Vorteil für diese Pflanzen ist. Möglicherweise ist das ein Abwehrmechanismus gegen Krankheitserreger“, erklärt der österreichische Bodenforscher Markus Puschenreiter von der Universität für Bodenkultur Wien. Die Felder in Albanien gehören dem US-Start-up Metalplant, das dort ideale Bedingungen für den Anbau vorfindet. Einer der Firmengründer ist der Amerikaner Eric Matzner. Er bezeichnet sich selbst als „Klimakrieger“ und ist über Umwege auf die Nickel-Pflanzen gestoßen. https://lnkd.in/dT6Gu6pc #futurezoneat #klimaschutz #klimawandel #forschung #science
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Introduction to Metalplant and our farms! Metalplant uses nickel hyperaccumulator plants to recover nickel from the soil, while removing carbon dioxide from the atmosphere through the process of enhanced rock weathering. Our current operations are in Albania on top of a 500 sq km massive of ultramafic rock where the soils naturally contain nickel and has mountains composed of magnesium silicate minerals like olivine and serpentine. The enhanced weathering of olivine for carbon dioxide removal (CDR) is currently limited in application rates due to the release of nickel into the environment as the rocks break down. By operating the weathering process on naturally nickel-containing soils and then growing hyperaccumulator plants in the fields that can recover the nickel, we can remove large amounts of carbon with minimal risk to the same environment we are trying to save, while producing the metal nickel, which sells for $20,000 per tonne. We harvest the plant biomass and then process it to recover the nickel and get it all the way up to greater than 99% purity. Nickel makes up ~10% of stainless steel and is/will be used in long-range, fast-charging EVs due to its high energy density to weight ratio and anti-cracking properties. Currently, around 3 million tonnes of nickel are mined per year, but that needs to double by 2040 to not slow down the clean energy transition. Our process can produce the extra 3 million tonnes of nickel, while also removing 1 billion tonnes of carbon dioxide. We can use this single stone to solve two of the world's most pressing problems.