PubMed · 2026-06-22
Some plants can pull toxic heavy metals out of contaminated soil and accumulate them in their tissues. Scientists are now using these metal-loaded plants as raw material to create ultra-efficient catalysts — tiny structures where individual metal atoms act as highly active chemical sites — that can break down pollutants in water and air.
Hyperaccumulator plants move heavy metals through a multi-step process — root activation, membrane crossing, and long-distance transport — that determines how metals are distributed and chemically bound within plant tissues.
The chemical form and cellular location of metals inside the plant directly controls how defects and active sites form when the plant biomass is converted into a catalyst by heating (pyrolysis), making plant biology a design tool for nanomaterial engineering.
Significant progress in hyperaccumulator-derived single-atom catalysts has occurred in the past five years, but safe disposal and value recovery of metal-rich plant biomass after harvest remain the field's central unsolved challenges.