Versatile non-luminescent color palette based on guest exchange dynamics in paramagnetic cavitands
Elad Goren, Liat Avram, Amnon Bar‐Shir
Abstract
Abstract Multicolor luminescent portrayal of complexed arrays is indispensable for many aspects of science and technology. Nevertheless, challenges such as inaccessible readouts from opaque objects, a limited visible-light spectrum and restricted spectral resolution call for alternative approaches for multicolor representation. Here, we present a strategy for spatial COlor Display by Exploiting Host-guest Dynamics (CODE-HD), comprising a paramagnetic cavitand library and various guests. First, a set of lanthanide-cradled α-cyclodextrins ( Ln-CDs ) is designed to induce pseudo-contact shifts in the 19 F-NMR spectrum of Ln-CD -bound guest. Then, capitalizing on reversible host-guest binding dynamics and using magnetization-transfer 19 F-MRI, pseudo-colored maps of complexed arrays are acquired and applied in molecular-steganography scenarios, showing CODE-HD’s ability to generate versatile outputs for information encoding. By exploiting the widely shifted resonances induced by Ln-CDs , the guest versatility and supramolecular systems' reversibility, CODE-HD provides a switchable, polychromatic palette, as an advanced strategy for light-free, multicolor-mapping.