Tijmen M. A. Bakker scite author profile

Molecular photoelectrochemical (PEC) devices are hampered by electron-hole recombination after photoinduced electron transfer (PET), causing losses in power conversion e ciency (PCE). Inspired by natural photosynthesis, we demonstrate the use of molecular machinery as a strategy to inhibit recombination, through organization of molecular components and unbinding of the nal electron acceptor after reduction. We show that preorganization of the macrocyclic 3-NDI-ring electron acceptor to the P STATION dye forming the P STATION :3-NDI-ring pseudorotaxane, enables a "ring launching" event, upon PET from P STATION to 3-NDI-ring releasing 3-NDI-ring •− . Implementing P STATION :3-NDI-ring into p-type dyesensitized solar cells (p-DSSCs) revealed a vefold increase in PCE compared to benchmark dye P1, unable to facilitate pseudorotaxane formation. This active repulsion of anionic 3-NDI-ring •− with concomitant reformation P STATION :3-NDI-ring circumvents recombination at semiconductor-dye interface, affording a twofold enhancement in hole lifetime. We envision this concept of supramolecular-directed charge-propagation will encourage further integration of molecular machinery into PEC devices.

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Redox‐Mediated Alcohol Oxidation Coupled to Hydrogen Gas Formation in a Dye‐Sensitized Photosynthesis Cell

Bruggeman

Bakker

Mathew

et al. 2020

Chemistry A European J

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This work reports ad ye-sensitized photoelectrochemical cell (DSPEC) that couples redox-mediated lightdriven oxidative organic transformations to reductive hydrogen (H 2)f ormation.T he DSPEC photoanodec onsists of am esoporousa nataseT iO 2 film on FTO (fluorine-doped tin oxide), sensitized with the thienopyrroledione-based dye AP11,w hileH 2 was formeda taFTO-Pt cathode. Irradiation of the dye-sensitizedp hotoanode transforms 2,2,6,6-tetramethylpiperidine 1-oxyl (TEMPO) to the oxidized TEMPO (TEMPO +), whicha cts as ac hemical oxidant for the conversion of benzyla lcohol. The TEMPO 0/ + couple,p reviously used as redoxm ediator in DSSC, mediates efficient electron transfer from the organic substrate to the photo-oxidized dye. AD SPEC photoreactorw as designed that allows in situ monitoring the reaction progress by infrared spectroscopy and gas chromatography.S ustained light-driven oxidation of benzyla lcoholt ob enzaldehydew ithin the DSPEC photoreactor,u sing of TEMPO as mediator,d emonstrated the efficiency of the device, with ap hotocurrent of 0.4 mA cm À2 ,a pproachingq uantitative Faradaic efficiency and exhibiting excellent device stability. Solar energy is an attractive CO 2-neutral energy source, providing % 4200 times the energy consumption estimated for 2035. [1, 2] Beyondw idely deployed silicon-based photovoltaic (PV) technology,d ye-sensitizeds olar cells (DSSCs) [3] present a low-cost alternative with improved performance in low/diffuse light conditions. DSSCs use molecular dyes, wide-bandg ap semiconductors and redox mediators to absorb light and separate charges affording efficienciest hat have surpassed 14 %. [4, 5] While the application of solar-to-electric energy conversion is increasing, long-term energy storageremains ac hallenge. Elec

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Lindqvist polyoxometalates as electrolytes in p-type dye sensitized solar cells

Bakker

Mathew

Reek

2019

Sustainable Energy Fuels

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Tijmen M. A. Bakker

Using supramolecular machinery to engineer directional charge propagation in photoelectrochemical devices

Redox‐Mediated Alcohol Oxidation Coupled to Hydrogen Gas Formation in a Dye‐Sensitized Photosynthesis Cell

Lindqvist polyoxometalates as electrolytes in p-type dye sensitized solar cells

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