Two‐Dimensional Metal‐Organic Layers as a Bright and Processable Phosphor for Fast White‐Light Communication

Abstract A metal–organic layer (MOL) is a new type of 2D material that is derived from metal–organic frameworks (MOFs) by reducing one dimension to a single layer or a few layers. Tetraphenylethylene‐based tetracarboxylate ligands (TCBPE), with aggregation‐induced emission properties, were assembled into the first luminescent MOL by linking with Zr 6 O 4 (OH) 6 (H 2 O) 2 (HCO 2 ) 6 clusters. The emissive MOL can replace the lanthanide phosphors in white light emitting diodes (WLEDs) with remarkable processability, color rendering, and brightness. Importantly, the MOL‐WLED exhibited a physical switching speed three times that of commercial WLEDs, which is crucial for visible‐light communication (VLC), an alternative wireless communication technology to Wi‐Fi and Bluetooth, by using room lighting to carry transmitted signals. The short fluorescence lifetime (2.6 ns) together with high quantum yield (50 %) of the MOL affords fast switching of the assembled WLEDs for efficient information encoding and transmission.