Shogo Amemori scite author profile

Near-infrared (NIR)-to-visible (vis) photon upconversion (UC) is useful for various applications; however, it remains challenging in triplet-triplet annihilation-based UC, mainly due to the energy loss during the S1-to-T1 intersystem crossing (ISC) of molecular sensitizers. In this work, we circumvent this energy loss by employing a sensitizer with direct S0-to-T1 absorption in the NIR region. A mixed solution of an osmium complex having a strong S0-T1 absorption and rubrene emitter upconverts NIR light (λ = 938 nm) to visible light (λ = 570 nm). Sensitizer-doped emitter nanoparticles are prepared by re-precipitation and dispersed into an oxygen-barrier polymer. The obtained composite film shows a stable NIR-to-vis UC emission based on triplet energy migration (TEM), even in air. A high UC quantum yield of 3.1% is observed for this TEM-UC system, expanding the scope of molecular sensitizers for NIR-to-vis UC.

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Increased vis-to-UV upconversion performance by energy level matching between a TADF donor and high triplet energy acceptors

Yanai

et al. 2016

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Near infrared-to-blue photon upconversion by exploiting direct S–T absorption of a molecular sensitizer

et al. 2017

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Shogo Amemori

Near-Infrared-to-Visible Photon Upconversion Sensitized by a Metal Complex with Spin-Forbidden yet Strong S₀–T₁Absorption

Increased vis-to-UV upconversion performance by energy level matching between a TADF donor and high triplet energy acceptors

Near infrared-to-blue photon upconversion by exploiting direct S–T absorption of a molecular sensitizer

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Shogo Amemori

Near-Infrared-to-Visible Photon Upconversion Sensitized by a Metal Complex with Spin-Forbidden yet Strong S0–T1Absorption

Increased vis-to-UV upconversion performance by energy level matching between a TADF donor and high triplet energy acceptors

Near infrared-to-blue photon upconversion by exploiting direct S–T absorption of a molecular sensitizer

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Product

Resources

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Near-Infrared-to-Visible Photon Upconversion Sensitized by a Metal Complex with Spin-Forbidden yet Strong S₀–T₁Absorption