Due to their distinctive optical activity, CPL materials have attracted much attention. To address the needs of optoelectronic applications in organic light-emitting diodes (OLEDs), chiral sensing, information encryption, etc., an increasing number of research projects have been concentrated on the molecular design of superior CPL materials.
In the field of molecular magnetism, the design of devices with technological applications at the nanoscale -;quantum computing, molecular spintronics, magnetic cooling, nanomedicine, high-density information storage, etc.-; requires those magnetic molecules that are placed on the surface to preserve their structure, functionality and properties.
In the field of molecular magnetism, the design of devices with technological applications at the nanoscale -;quantum computing, molecular spintronics, magnetic cooling, nanomedicine, high-density information storage, etc.-; requires those magnetic molecules that are placed on the surface to preserve their structure, functionality and properties.
A team of researchers recently published a paper in the journal Coordination Chemistry Reviews that reviewed one-dimensional (1D) coordination polymers based on nitrogen-donor (N-donor) ligands.