Tuning Photoinduced Electron Transfer in POM‐Bodipy Hybrids by Controlling the Environment: Experiment and Theory

Toupalas, Georgios; Karlsson, Joshua; Black, Fiona A.; Masip‐Sánchez, Albert; López, Xavier; M’Barek, Youssef Ben; Blanchard, Sébastien; Proust, Anna; Alvès, Sandra; Chábera, Pavel; Clark, Ian P.; Pullerits, Tõnu; Poblet, Josep M.; Gibson, Elizabeth A.; Izzet, Guillaume

doi:10.1002/ange.202014677

Cited by 7 publications

(7 citation statements)

References 58 publications

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“…Atomistic MD simulations with explicit solvent molecules were performed to determine the behaviour of PcLn-{V12} and (PcLn)2-{V12} (for Ln = Lu) in pure CH2Cl2 using the GROMACS 5.1.2 code 54,55 and a modified AMBER 99 Force Field, 56 which has been successfully employed in previous studies of the dynamic behaviour of POMs in different environments, including aggregation phenomena. [57][58][59] The MD trajectories were calculated imposing 3D periodic boundary conditions. Two different fundamental cubic boxes were used: a (8.5 nm) 3 box containing 8 units (PcLn-{V12} or (PcLn)2-{V12} anions) for the 20 mM (high concentration) solution, and a (11.6 nm) 3 box containing 5 units for the 5 mM (low concentration) solution.…”

Section: Studymentioning

confidence: 99%

Molecular Nanocomposites with Lanthanide- and Counter-Cation-Mediated Interfacial Electron Transfer between Phthalocyanine and Polyoxovanadate

Werner

Griebel

Masip‐Sánchez

et al. 2022

Preprint

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A series of {V12}-nuclearity polyoxovanadate cages covalently functionalised with one or sandwiched by two phthalocyaninato (Pc) lanthanide (Ln) moieties via V−O−Ln bonds were prepared and fully characterised for paramagnetic Ln = SmIII–ErIII and diamagnetic Ln = LuIII, including YIII. The LnPc-functionalised {V12O32} cages with fully-oxidised vanadium centres in the ground state were isolated as (nBu4N)3[HV12O32Cl(LnPc)] and (nBu4N)2[HV12O32Cl(LnPc)2] compounds. As corroborated by a combined experimental (EPR, DC and AC SQUID, laser photolysis transient absorption spectroscopy, electrochemistry) and computational methods (DFT, MD, model Hamiltonian approach), the compounds feature intra- and intermolecular electron transfer that is responsible for a partial reduction at V(3d) centres from VV to VIV in the solid state and at high sample concentrations. The effects are generally Ln-dependent and are clearly demonstrated for the (nBu4N)3[HV12O32Cl(LnPc)] representative with Ln= LuIII or DyIII. Intramolecular charge transfer takes place for Ln = LuIII and occurs from a Pc ligand via the Ln centre to the {V12O32} core of the same molecule, whereas for Ln= DyIII only intermolecular charge transfer is allowed, which is realised from Pc in one molecule to {V12O32} core of another molecule usually via the nBu4N+ counter-cation. For all Ln but DyIII two of these phenomena may be present in different proportions. Besides, it is demonstrated that (nBu4N)3[HV12O32Cl(DyPc)] is a field induced single molecule magnet with a maximal relaxation time of order 10–3 s. The obtained results open up the way to further exploration and fine-tuning of these three-modular molecular nanocomposites regarding tailoring and control of their Ln-dependent charge-separated states (induced by intramolecular transfer) and relaxation dynamics as well as of electron hopping between molecules. This should enable to realise ultra-sensitive polyoxometalate powered quasi-superconductors, sensors and data storage/processing materials for quantum technologies.

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Section: Studymentioning

confidence: 99%

Molecular Nanocomposites with Lanthanide- and Counter-Cation-Mediated Interfacial Electron Transfer between Phthalocyanine and Polyoxovanadate

Werner

Griebel

Masip‐Sánchez

et al. 2022

Preprint

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“…33 MeCN. 23 The organotin derivatives display higher negative charge compared to the organosilyl derivatives,…”

Section: K Momentioning

confidence: 99%

“…21,22 Precious metal-free photosensitizers such as zinc porphyrin, perylene, pyrene and boron dipyrromethene (bodipy) have also been applied. 13,14,17,23,24 In these systems, charge-transfer from the sensitizer to the POM occurs either through space or through the bridge, depending on the structure. 25 In bodipy photosensitized POM conjugates, we previously showed that the occurrence and kinetics of photoinduced electron transfer was strongly dependant on the redox properties of both POM and the bodipy sensitizer.…”

Section: Introductionmentioning

confidence: 99%

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Acid-triggering of light-induced charge-separation in hybrid organic/inorganic molecular photoactive dyads for harnessing solar energy

Benazzi

Karlsson

M’Barek

et al. 2021

Inorg. Chem. Front.

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“…This is mainly due to the πdelocalization that is symmetrically extended twice or even more, reducing both internal and external reorganization energy. [17][18][19][20][21] Therefore, despite the perhaps intense emission, the small Stokes shift causes significant reabsorption and hence radiative quenching of the emission. In sharp contrast, the asymmetric structure results in uneven π-delocalization, increasing the internal reorganization energy and hence the Stokes shift for reducing the reabsorption.…”

Section: Introductionmentioning

confidence: 99%

Substituent Effects in Six(Anilido)‐Five(Thiazole) Membered Ring Boron Difluoride Dyes

et al. 2021

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A series of new six (anilido)-five (thiazole) membered ring boron difluoride dyes, namely BFs, have been synthesized from the corresponding para-and meta-substituted 2-(2'-methylaminophenyl) benzothiazoles through complexation with boron trifluoride. Depending on the substituent effect, the derivatives can switch the emission properties from fluorescence with 100 % emission yield to slim fluorescence but > 90 % triplet state population and peak wavelength tuning from 490 nm to 610 nm. Compared with non-complexed precursors, the rigid, highly planar structure and significantly red-shifted absorption and emission for BFs indicate that the boron center facilitates the formation of a bridge leading to increased rigidity, and is also involved in π-conjugation, increasing the transition dipole and suppressing the nonradiative internal conversion. Together with optical ~100 % transparent window around 325-375 nm, BFs may find unique applications, among which the fluorescence up-conversion via triplet-triplet annihilation is demonstrated.

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Tuning Photoinduced Electron Transfer in POM‐Bodipy Hybrids by Controlling the Environment: Experiment and Theory

Cited by 7 publications

References 58 publications

Molecular Nanocomposites with Lanthanide- and Counter-Cation-Mediated Interfacial Electron Transfer between Phthalocyanine and Polyoxovanadate

Molecular Nanocomposites with Lanthanide- and Counter-Cation-Mediated Interfacial Electron Transfer between Phthalocyanine and Polyoxovanadate

Acid-triggering of light-induced charge-separation in hybrid organic/inorganic molecular photoactive dyads for harnessing solar energy

Substituent Effects in Six(Anilido)‐Five(Thiazole) Membered Ring Boron Difluoride Dyes

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