Latest Recycling Tech Insights

Studies from MPI-SusMat, the University of Maryland, and Rice University target distinct bottlenecks across the battery stack.

Studies from MPI-SusMat, the University of Maryland, and Rice University target distinct bottlenecks across the battery stack.

Advances in anode design, materials recovery, and dendrite behavior are addressing key limitations in modern battery systems.

Advances in anode design, materials recovery, and dendrite behavior are addressing key limitations in modern battery systems.

Tartaric acid from grapes, a wine-industry discard, offers a low-cost, environmentally friendly option for cobalt and…

Tartaric acid from grapes, a wine-industry discard, offers a low-cost, environmentally friendly option for cobalt and nickel extraction from…

Two research teams have developed sustainable, efficient options for recovering key metals from spent lithium-ion batteries.

Two research teams have developed sustainable, efficient options for recovering key metals from spent lithium-ion batteries.

Researchers have developed an electrochemical method to recover over 95% of nickel and cobalt from used lithium-ion…

Researchers have developed an electrochemical method to recover over 95% of nickel and cobalt from used lithium-ion batteries with over 99% purity.

Researchers demonstrated that ultrathin Ti3C2Tx MXene films can replace copper current collectors.

Researchers demonstrated that ultrathin Ti3C2Tx MXene films can replace copper current collectors.

Three studies promise safer, more sustainable, and higher-performance alternatives to today’s lithium-ion battery technology.

Three studies promise safer, more sustainable, and higher-performance alternatives to today’s lithium-ion battery technology.

Research from around the globe pushes clean energy’s frontier with innovations in hydrogen bubble control,…

Research from around the globe pushes clean energy’s frontier with innovations in hydrogen bubble control, lithium-metal battery recycling, and…

Japanese researchers have created materials for lithium-air, lithium-ion, and aqueous batteries that promise cleaner,…

Japanese researchers have created materials for lithium-air, lithium-ion, and aqueous batteries that promise cleaner, faster, and more recyclable…

New research in battery disassembly, hydrogen storage, and perovskite engineering reveals scalable, low-impact solutions…

New research in battery disassembly, hydrogen storage, and perovskite engineering reveals scalable, low-impact solutions for future electrification…

Researchers have discovered that aluminum contamination during conventional recycling processes inhibits critical metal recovery.

Researchers have discovered that aluminum contamination during conventional recycling processes inhibits critical metal recovery.

According to a new report, recovering valuable materials from used electric vehicle batteries and other electronics is…

According to a new report, recovering valuable materials from used electric vehicle batteries and other electronics is vital to the supply chain.

Researchers have used ultrasound to stabilize an oil-water mixture to extract valuable metals from used lithium-ion batteries.

Researchers have used ultrasound to stabilize an oil-water mixture to extract valuable metals from used lithium-ion batteries.

Hard carbon in rice hull ash can be upcycled for higher-capacity battery materials.

Hard carbon in rice hull ash can be upcycled for higher-capacity battery materials.

The recycling method uses microwaves and a biodegradable solvent to recover lithium from used batteries.

The recycling method uses microwaves and a biodegradable solvent to recover lithium from used batteries.

Researchers develop two recycling techniques to recover valuable materials from used lithium-ion batteries.

Researchers develop two recycling techniques to recover valuable materials from used lithium-ion batteries.

Jaguar has partnered with a U.K. company to create portable battery storage systems made from used Land Rover EV batteries.

Jaguar has partnered with a U.K. company to create portable battery storage systems made from used Land Rover EV batteries.

An improved battery recycling approach directly extracts active lithium from spent batteries at room temperature.

An improved battery recycling approach directly extracts active lithium from spent batteries at room temperature.

Capacity-recovery technology from Toyota may be the quickest way to revive lithium-ion batteries without dismantling them.

Capacity-recovery technology from Toyota may be the quickest way to revive lithium-ion batteries without dismantling them.