Photon Upconversion with a Low Threshold Excitation Intensity in Plain Water.

A triplet-triplet annihilation-based photon upconversion (TTA-UC) system with a low threshold excitation intensity ( I th ) in plain water was developed. Water-soluble anionic porphyrin (PdTPPS 4- ) and diphenylanthracene (DCDPA 2- ) derivatives were used as light absorbers and emitter molecules, respectively, and no additives such as surfactants were required. The phosphorescence emission from PdTPPS 4- under an excitation wavelength of 528 nm was quenched by DCDPA 2- , resulting in triplet energy transfer, whereas fluorescence from DCDPA 2- was observed in a short wavelength region (400-500 nm). Three independent emission studies utilizing different excitation light sources validated the TTA-UC process in a simple aqueous solution. TTA occurred after the triplet energy transfer, according to the time profiles of phosphorescence and fluorescence detected following pulse laser excitation. The I th for TTA-UC was estimated to be lower than 6 mW cm -2 , although it could not be exactly determined due to the sensitivity limit of the experimental setup. The upper limit of I th for the aqueous solution of DCDPA 2- and PdTPPS 4- is the smallest value obtained to date for aqueous systems and comparable to that of high-performance TTA-UC systems in organic solutions.