Abstract
AbstractRealizing efficient and ultralong room‐temperature phosphorescence (RTP) is highly desirable but remains a challenge due to the inherent competition between excited state lifetime and photoluminescence quantum yield (PLQY). Herein, we report the bottom‐up self‐assembly of transparent metal–organic framework (MOF) bulk glasses exhibiting direct ultralong all‐phosphorescence (lifetime: 630.15 ms) with a PLQY of up to 75 % at ambient conditions. These macroscopic MOF glasses have high Young's modulus and hardness, which provide a rigid environment to reduce non‐radiative transitions and boost triplet excitons. Spectral technologies and theoretical calculations demonstrate the photoluminescence of MOF glasses is directly derived from the different triplet excited states, indicating the great capability for color‐tunable afterglow emission. We further developed information storage and light‐emitting devices based on the efficient and pure RTP of the fabricated MOF photonic glasses.
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