posted on 2022-04-04, 13:36authored byNishya
F. M. Mukthar, Nathan D. Schley, Gaël Ung
Circularly polarized luminescence
(CPL) in two subregions of the
near-infrared (NIR) has been achieved. By leveraging the rigidity
and diminishing detrimental vibrations of the heterobimetallic binolate
complexes of erbium [(Binol)3ErNa3], species
exhibiting an exceptionally high dissymmetry factor (|glum |) of 0.47 at 1550 nm were obtained. These erbium
complexes are the first reported examples of CPL observed beyond 1200
nm. Analogous complexes of ytterbium and neodymium also exhibited
strong CPL (|glum| = 0.17, 0.05, respectively)
in a higher energy NIR window (800–1200 nm). All complexes
exhibit high quantum yields (Er: 0.58%, Yb: 17%, Nd: 9.3%) and high BCPL values (Er: 57 M–1 cm–1, Yb: 379 M–1 cm–1, Nd: 29 M–1 cm–1). Because of
their strong CPL emission in the telecom band (1550 nm), biologically
relevant NIR emission window (800–1100 nm), and synthetic versatility,
the complexes reported here could permit further promising developments
in quantum communication technologies and biologically relevant sensors.