BIO-TECH INFRASTRUCTURE FOR THE RARE EARTH ELEMENTS ECONOMY

AI-driven bio-technologies for recovery of rare earth elements from waste streams, brines, and industrial residues.

THE RARE EARTH ELEMENTS CHALLENGE

The World Needs More Rare Earth Elements

Rare earth elements are becoming essential for artificial intelligence datacenters, renewable energy, electric vehicles, advanced manufacturing, robotics and defense.

Global demand continues to accelerate while supply chains remain concentrated and strategically vulnerable.

$6.5T

GLOBAL VALUE AT RISK

90%

REE MIDSTREAM
SEPARATION & REFINING

94%

REE DOWNSTREAM
PERMANENT MAGNET
PRODUCTION

$320B

GLOBAL MARKET

RESOURCES

THE WORLD'S LARGEST UNTAPPED RESOURCE

Trillions of Dollars Already Exist on the Surface in Waste Streams — Critical minerals remain trapped in industrial systems and waste streams around the world on the surface.

Quantum Laminar develops biologically-driven technologies capable of unlocking value where conventional technologies struggle.

01 / COAL POWER

Ash Hills

02 / OPEN PIT

Mine Tailings

03 / MINE WATER

Acid Drainage

04 / OIL & GAS

Abandoned Wells

05 / GEOTHERMAL

Active Brines

TECHNOLOGY

AI-DRIVEN BIOREACTOR FOR ABSORBERS PRODUCTION

Lanmodulin is a breakthrough biological protein capable of selectively binding rare earth elements with extraordinary precision. Recent Nobel Prize discoveries in biotechnology have transformed Lanmodulin from scientific discovery into industrial opportunity.

Quantum Laminar is developing an AI-driven bioreactor platform for growth of lanmodulin where biological processes are continuously monitored, optimized, and improved.

PRODUCTS

Industrial applications for global cooperations

Quantum Laminar is building a family of technologies designed to enable environmentally friendly recovery of rare earth recovery from waste sources at industrial scale.