Near-Infrared and Visible Photoactivation to Uncage Carbon Monoxide from an Aqueous-Soluble PhotoCORM

Jiang, Qin; Xia, Yingzi; Barrett, Jacob; Mikhailovsky, Alexander; Wu, Guang; Wang, Daqi; Shi, Pengfei; Ford, Peter C.

doi:10.1021/acs.inorgchem.9b01581

Cited by 35 publications

(23 citation statements)

References 42 publications

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“…In dichloromethane the compounds lose the CO with no defined intermediate, in acetonitrile, all compounds form a third and lower intensity band around 1870-1850 cm -1 , associated with the formation of a biscarbonyl intermediate. 49,53,54,56 The relative low intensity of the biscarbonyl intermediate may be due to fast oxidation of the compounds once they begin to lose the CO, as previously reported. 47,55 On comparing the relative areas after photoexcitation, all compounds lose all three CO molecules in both media.…”

Section: Ch2cl2 Ch3cnsupporting

confidence: 52%

Synthesis, characterization and photoinduced CO-release by manganese(i) complexes

et al. 2020

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Section: Ch2cl2 Ch3cnsupporting

confidence: 52%

Synthesis, characterization and photoinduced CO-release by manganese(i) complexes

et al. 2020

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“…One of the main challenges in designing an efficient photoCORM is activation by light in the phototherapeutic window (600–950 nm). To date, various strategies, including ancillary ligand modifications, , multiphoton excitation, , mixing with a triplet-state photosensitizer, quantum dots, upconverting nanoparticles, or as previously reported by our group, coupling with a visible light absorbing metal complex, and so forth, have been employed to activate the photo-CO dissociation under visible and NIR irradiation. Alternatively, the use of dye photosensitizers as light-harvesting components of the design allows for visible light-activated photoCORMs …”

Section: Introductionmentioning

confidence: 99%

Release of CO and Production of ¹O₂ from a Mn-BODIPY Photoactivated CO Releasing Molecule with Visible Light

2021

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Carbon monoxide (CO) is shown to enhance the sensitivity of cancer cells to generate reactive oxygen species such as singlet oxygen ( 1 O 2 ) from chemotherapeutics and reduce the drug resistance. Herein, we introduced two Mn-based photoactivated CO releasing molecules conjugated with an emissive BODIPY (BDP) moiety with a general formula of Mn(CO) 3 (bpy-R-BDP)Br (R = H or I), labeled as Mn-bpy-H-BDP and Mn-bpy-I-BDP. While both complexes release CO with visible light, Mn-bpy-I-BDP releases CO and produces 1 O 2 from a single molecule. In addition to 1 O 2 generation, iodination of BDP red shifts the absorption of Mn-bpy-I-BDP further into the visible region and significantly increases the dark stability of the complex. Cyclic voltammetry and density functional theory (DFT) calculations suggest a Mn-based highest occupied molecular orbital (HOMO) and a BDP-based lowest unoccupied molecular orbital (LUMO) in these complexes. However, time-dependent DFT calculations suggest that the HOMO − 2(π BDP ) → LUMO(π BDP * ) is the main optical transition upon excitation with visible light in both complexes. The presence of a phosphorescence peak from the triplet excited state of bpy-I-BDP in both the free ligand and its Mn complex at 77 K was used as additional evidence for 1 O 2 production. We also probed formation of photo-intermediates and products during photolysis with Fourier-transform infrared, 1 H NMR, emission, and absorption experiments and DFT calculations.

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“…Recent experimental research interest in this field leads to the synthesis of novel compounds, functionalized from early Re(I) and Mn(I) -diimine complexes, suitable for bio-medical applications. [7][8][9][10] Within the context of CO2 reduction catalysis, ultrafast spectroscopy of [MnBr(CO)3(R-bpy)] (R-bpy = 4,4'-disubstituted 2,2'-bipyridyl; R= t Bu, H, CF3, NO2) has been investigated in acetonitrile. This recent study points to a time constant for CO release of 460-680 fs, sensitive to the R substituent, subsequent solvent coordination occurring within 18 to 39 ps time scale.…”

Section: Introductionmentioning

confidence: 99%

Excited-state dynamics of [Mn(im)(CO)3(phen)]+: PhotoCORM, catalyst, luminescent probe?

Fumanal

Daniel

Gindensperger

2021

The Journal of Chemical Physics

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Mn(I) -diimine carbonyl complexes have shown promise in the development of luminescent CO release materials (photoCORM) for diagnostic and medical applications due to their ability to balance the energy of the low-lying metal-to-ligand charge transfer (MLCT) and metalcentered (MC) states. In this work, the excited state dynamics of [Mn(im)(CO)3(phen)] + (im = imidazole; phen = 1,10-phenanthroline) is investigated by means of wavepacket propagation on the potential energy surfaces associated to the eleven low-lying Sn singlet excited states within a vibronic coupling model in a (quasi) diabatic representation including sixteen nuclear degrees of freedom. The results show that the early time photophysics (< 400 fs) is controlled by the interaction between two MC dissociative states, namely S5 and S11, with the lowest S1-S3 MLCT bound states. In particular, the presence of S1/S5 and S2/S11 crossings within the diabatic picture along the Mn-COaxial dissociative coordinate (qMn-COaxial) favours a twostepwise population of the dissociative states, at about 60-70 fs (S11) and 160-180 fs (S5), that reaches about 10% within 200 fs. The one-dimensional reduced densities associated to the dissociative states along qMn-COaxial as function of time clearly point to concurrent primary processes, namely CO release vs. entrapping into the S1 and S2 potential wells of the lowest luminescent MLCT states within 400 fs, characteristics of luminescent photoCORM.

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Near-Infrared and Visible Photoactivation to Uncage Carbon Monoxide from an Aqueous-Soluble PhotoCORM

Cited by 35 publications

References 42 publications

Synthesis, characterization and photoinduced CO-release by manganese(i) complexes

Synthesis, characterization and photoinduced CO-release by manganese(i) complexes

Release of CO and Production of ¹O₂ from a Mn-BODIPY Photoactivated CO Releasing Molecule with Visible Light

Excited-state dynamics of [Mn(im)(CO)3(phen)]+: PhotoCORM, catalyst, luminescent probe?

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Near-Infrared and Visible Photoactivation to Uncage Carbon Monoxide from an Aqueous-Soluble PhotoCORM

Cited by 35 publications

References 42 publications

Synthesis, characterization and photoinduced CO-release by manganese(i) complexes

Synthesis, characterization and photoinduced CO-release by manganese(i) complexes

Release of CO and Production of 1O2 from a Mn-BODIPY Photoactivated CO Releasing Molecule with Visible Light

Excited-state dynamics of [Mn(im)(CO)3(phen)]+: PhotoCORM, catalyst, luminescent probe?

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Product

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Release of CO and Production of ¹O₂ from a Mn-BODIPY Photoactivated CO Releasing Molecule with Visible Light