New Metal-Organic Framework Material Achieves Real-Time Fluoride Removal and Detection in Water

Fluoride contamination remains a persistent challenge for municipal and rural water supplies, especially in regions where natural fluoride levels exceed safe thresholds. Traditional defluoridation techniques—such as activated alumina adsorption or reverse osmosis—often require separate monitoring steps, increasing complexity and cost. Metal‑organic frameworks have attracted attention for water treatment because of their tunable porosity and functionalizable surfaces, but translating laboratory performance into real‑world applications has been hampered by limited selectivity and lack of on‑site detection.

The breakthrough reported by Prof. Kong’s team hinges on precise control of MOF crystal facets using a thin layer of interfacial water. This approach preferentially exposes the (100) and (101) planes of MIL‑88A(Fe), which exhibit stronger affinity for fluoride ions. By integrating lanthanum into the framework, the researchers introduced a fluorescence‑active site that lights up when fluoride binds, creating a dual‑functional La/Fe‑MOF‑NH₂ material. The resulting device not only captures fluoride with adsorption capacities surpassing 150 mg g⁻¹ but also provides an immediate color change visible to the naked eye, eliminating the need for laboratory analysis.

Beyond the laboratory, the dual‑functional MOF offers a scalable pathway for decentralized water treatment. Its solid‑state form can be packed into cartridges or incorporated into existing filtration units, while the visual signal simplifies compliance monitoring for regulators and end‑users alike. As governments tighten standards for fluoride in drinking water, this technology could lower capital expenditures for municipalities and empower communities lacking sophisticated testing infrastructure. Continued research will focus on long‑term stability, regeneration cycles, and expanding the platform to detect other hazardous ions, positioning MOF‑based sensors as a versatile tool in the next generation of smart water treatment solutions.