Title : Pi-conjugated uminescent chiral macrocycles and the open-shell radical cations
Abstract:
π-Conjugated chiral nanorings with intriguing electronic structures and chiroptical properties have attracted considerable interests in synthetic chemistry and materials science. In particular, those macrocycles with robust redox chemistry are rarely reported in the literature as compared with the carbon-rich analogues. Over the past few years, incorporation of main group elements (such as B, N, P and Si) into organic systems has been established for decades to achieve functional modifications of organic π-conjugated materials. The B/N-doped main-group compounds have particularly attracted considerable research interests due to notable contribution to the electronic properties. New chiroptical materials with circularly polarized luminescence (CPL) have recently found numerous applications in photonics, smarting sensing and (bio)imaging as well as information technology. This work will focus on the molecular design, synthetic methodology and characterization of organoborane macrocycles and CPL-active materials, and we will also discuss their redox-active behaviors that enable these macrocycles to be readily oxidized chemically and electrochemically, leading to the sequential production of a series of positively charged polycationic open-shell cyclophanes.
Audience Take Away Notes:
- We will describe the design and synthesis of π-conjugated main-group chiral macrocycles
- We will present the emission and circularly polarized luminescence properties
- We will show the preparation and characterization of open-shell polycation species
- We will also discuss some recent progress of chiral radical chemistry
