High-Efficiency Near-Infrared-to-Visible Photon Upconversion in Poly(vinyl alcohol) Porous Film

Abstract: Triplet–triplet annihilation photon upconversion (TTA-UC) has received significant attention in energy harvesting applications such as solar cells. The realization of high upconversion (UC) performance in the form of films is a crucial factor for the incorporation of this technology into large-area devices. Herein, we propose a porous UC film prepared by an emulsification method with a poly­(vinyl alcohol) (PVA) aqueous solution and a toluene solution of chromophores (rubrene/Pd-tetraphenyl­tetraanthra­porphyr… Show more

“…Therefore, the energy-transfer efficiency between the TTA-UC components is often unsatisfactory. As a result, the development of high-performance solid-state TTA-UC systems remains limited to date. ,, Meanwhile, the physicochemical properties of these polymer host materials and the aggregation state of the incorporated TTA-UC components within them can significantly change with variations in the system temperature. For instance, it has been reported that heating the polymer host-based solid-state TTA-UC systems results in a substantial enhancement of UC emission due to the decreased viscosity of the polymer host and an increased diffusion of the TTA-UC components .…”

Enhancing Upconversion Performance via Thermoplasmonic Remote Heating and Its Application to All-Photonic Logic Gates

“…Therefore, the energy-transfer efficiency between the TTA-UC components is often unsatisfactory. As a result, the development of high-performance solid-state TTA-UC systems remains limited to date. ,, Meanwhile, the physicochemical properties of these polymer host materials and the aggregation state of the incorporated TTA-UC components within them can significantly change with variations in the system temperature. For instance, it has been reported that heating the polymer host-based solid-state TTA-UC systems results in a substantial enhancement of UC emission due to the decreased viscosity of the polymer host and an increased diffusion of the TTA-UC components .…”

Enhancing Upconversion Performance via Thermoplasmonic Remote Heating and Its Application to All-Photonic Logic Gates

High-efficiency triplet–triplet annihilation upconversion microemulsion with facile preparation and decent air tolerance

Triplet–triplet annihilation mediated photon upconversion solar energy systems