Integrated Photon Upconversion Dye-Sensitized Solar Cell by Co-adsorption with Derivative of Pt–Porphyrin and Anthracene on Mesoporous TiO₂

Abstract: Photon upconversion via triplet–triplet annihilation (TTA-UC) is a process that converts two lower-energy photons to a higher-energy photon, which is expected to increase the maximum solar cell efficiency beyond the Shockley–Queisser limit. To incorporate TTA-UC into a dye-sensitized solar cell (DSSC), we used a co-adsorption approach, in which both a TTA-UC donor with an alkyl carboxylic acid chain and a TTA-UC acceptor dye were adsorbed onto mesoporous TiO 2 . Incident photon-to-curren… Show more

“…In order to solve the triplet energy migration and sensitizer solubility issue, a co-adsorption approach was introduced (Figure 8b). [199] In this approach, the sensitizer and annihilator are co-adsorbed on the surface of electrode with close proximity, which improved the TET and TTA efficiency thanks to the short distance between upconversion chromophores. An FoM of 0.036 mA cm −2 sun −2 has been achieved in a TTA upconversion [193] Copyright 2016, American Chemical Society.…”

“…integrated DSSC by co-adsorbing Pt(II)−porphyrin dye and diphenylanthracene on mesoporous TiO 2 . [199] Nevertheless, this approach has the disadvantage of the relatively low light harvesting efficiency since the concentration of sensitizer on the electrode surface is limited.…”

Application of Triplet–Triplet Annihilation Upconversion in Organic Optoelectronic Devices: Advances and Perspectives

“…In order to solve the triplet energy migration and sensitizer solubility issue, a co-adsorption approach was introduced (Figure 8b). [199] In this approach, the sensitizer and annihilator are co-adsorbed on the surface of electrode with close proximity, which improved the TET and TTA efficiency thanks to the short distance between upconversion chromophores. An FoM of 0.036 mA cm −2 sun −2 has been achieved in a TTA upconversion [193] Copyright 2016, American Chemical Society.…”

“…integrated DSSC by co-adsorbing Pt(II)−porphyrin dye and diphenylanthracene on mesoporous TiO 2 . [199] Nevertheless, this approach has the disadvantage of the relatively low light harvesting efficiency since the concentration of sensitizer on the electrode surface is limited.…”

Application of Triplet–Triplet Annihilation Upconversion in Organic Optoelectronic Devices: Advances and Perspectives

“…4 TTA-UC can be harnessed in a solar cell using either optically [5][6][7][8][9] or electronically coupled schemes. [10][11][12][13][14][15][16][17] The latter relies on incorporating sensitizer and annihilator molecules directly into the solar cell and has achieved photocurrent enhancements up to 0.315 mA cm À2 . 18 While a promising proof of concept, all electronically coupled TTA-UC solar cells to date absorb visible light (i.e., o700 nm).…”

Harnessing near-infrared lightviaS₀to T₁sensitizer excitation in a molecular photon upconversion solar cell

“…[ 1–5 ] TTA‐UC has gained great attention because it can proceed efficiently at low threshold intensities of incident incoherent light at or below 100 mW cm −2 . [ 1,6,7 ] This phenomenon was first discovered in single molecules of anthracene and phenanthrene as early as 1962, [ 8 ] continued research has produced increasingly efficient TTA‐UC systems and revealed the ease of tuning optical properties in multicomponent systems. [ 9–11 ] The first step in two‐component triplet upconversion is photon absorption by a sensitizer (donor) molecule, resulting in the generation of a singlet excited state, S 1 ( Figure a).…”

Efficiency of Thermally Activated Delayed Fluorescence Sensitized Triplet Upconversion Doubled in Three‐Component System