Atomically Thin 2D Interfaces for Molecular Permeability published in Advanced Functional Materials

Volo’s paper on Atomically Thin 2D Interfaces for Molecular Permeability is published in Advanced Functional Materials. Congratulations!

This research introduces a novel sensing platform using atomically thin, photoluminescent MoS2 monolayers as 2D sensing interfaces to detect molecular diffusion through cellular layers and tissues. The platform, capable of spatially imaging molecular permeability, identifies nanoscale breaks in cellular junctions, offering new insights for the development of targeted therapeutics and mechanistic models.

Atomically Thin 2D Interfaces as Sensors for Molecular Permeability through Cellular Layers and Thin Tissues.

Volodymyr B. Koman, Xun Gong, Naveed A. Bakh, Kevin Silmore, Daniel P. Salem, Tedrick Thomas Salim Lew, Matthias Kuehne, Daichi Kozawa, Minkyung Park, Michael S. Strano. Advanced Functional Materials, 32, 2109598 (2022).