AI Article Synopsis
- Thermal quenching (TQ) affects luminescence due to lattice vibrations known as multiphonon relaxation (MPR).
- Researchers created a core/shell upconversion luminescence (UCL) system that utilizes materials with opposing thermal expansion properties to manage this phenomenon.
- By applying pressure on the crystal lattice of the core, MPR is suppressed, leading to reduced energy loss from TQ and improved luminescent efficiency.
Article Abstract
Thermal quenching (TQ) has been naturally entangling with luminescence since its discovery, and lattice vibration, which is characterized as multiphonon relaxation (MPR), plays a critical role. Considering that MPR may be suppressed under exterior pressure, we have designed a core/shell upconversion luminescence (UCL) system of α-NaYF:Yb/Ln@ScF (Ln = Ho, Er, and Tm) with positive/negative thermal expansion behavior so that positive thermal expansion of the core will be restrained by negative thermal expansion of the shell when heated. This imposed pressure on the crystal lattice of the core suppresses MPR, reduces the amount of energy depleted by TQ, and eventually saves more energy for luminescing, so that anti-TQ or even thermally enhanced UCL is obtained.
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| http://dx.doi.org/10.1021/jacs.3c10886 | DOI Listing |
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