Your search keyword '"Lindh, Linnea"' showing total 6 results

1. Photophysical Integrity of the Iron(III) Scorpionate Framework in Iron(III)-NHC Complexes with Long-Lived 2LMCT Excited States

Author

Prakash, Om, Lindh, Linnea, Kaul, Nidhi, Rosemann, Nils W., Losada, Iria Bolaño, Johnson, Catherine, Chábera, Pavel, Ilic, Aleksandra, Schwarz, Jesper, Gupta, Arvind Kumar, Uhlig, Jens, Ericsson, Tore, Häggström, Lennart, Huang, Ping, Bendix, Jesper, Strand, Daniel, Yartsev, Arkady, Lomoth, Reiner, Persson, Petter, Wärnmark, Kenneth, Prakash, Om, Lindh, Linnea, Kaul, Nidhi, Rosemann, Nils W., Losada, Iria Bolaño, Johnson, Catherine, Chábera, Pavel, Ilic, Aleksandra, Schwarz, Jesper, Gupta, Arvind Kumar, Uhlig, Jens, Ericsson, Tore, Häggström, Lennart, Huang, Ping, Bendix, Jesper, Strand, Daniel, Yartsev, Arkady, Lomoth, Reiner, Persson, Petter, and Wärnmark, Kenneth

Abstract

Fe(III) complexes with N-heterocyclic carbene (NHC) ligands belong to the rare examples of Earth-abundant transition metal complexes with long-lived luminescent charge-transfer excited states that enable applications as photosensitizers for charge separation reactions. We report three new hexa-NHC complexes of this class: [Fe(brphtmeimb)2]PF6 (brphtmeimb = [(4-bromophenyl)tris(3-methylimidazol-2-ylidene)borate]–, [Fe(meophtmeimb)2]PF6 (meophtmeimb = [(4-methoxyphenyl)tris(3-methylimidazol-2-ylidene)borate]–, and [Fe(coohphtmeimb)2]PF6 (coohphtmeimb = [(4-carboxyphenyl)tris(3-methylimidazol-2-ylidene)borate]–. These were derived from the parent complex [Fe(phtmeimb)2]PF6 (phtmeimb = [phenyltris(3-methylimidazol-2-ylidene)borate]– by modification with electron-withdrawing and electron-donating substituents, respectively, at the 4-phenyl position of the ligand framework. All three Fe(III) hexa-NHC complexes were characterized by NMR spectroscopy, high-resolution mass spectroscopy, elemental analysis, single crystal X-ray diffraction analysis, electrochemistry, Mößbauer spectroscopy, electronic spectroscopy, magnetic susceptibility measurements, and quantum chemical calculations. Their ligand-to-metal charge-transfer (2LMCT) excited states feature nanosecond lifetimes (1.6–1.7 ns) and sizable emission quantum yields (1.7–1.9%) through spin-allowed transition to the doublet ground state (2GS), completely in line with the parent complex [Fe(phtmeimb)2]PF6 (2.0 ns and 2.1%). The integrity of the favorable excited state characteristics upon substitution of the ligand framework demonstrates the robustness of the scorpionate motif that tolerates modifications in the 4-phenyl position for applications such as the attachment in molecular or hybrid assemblies.

Published

2022

2. Photophysical Integrity of the Iron(III) Scorpionate Framework in Iron(III)-NHC Complexes with Long-Lived 2LMCT Excited States

Author

Prakash, Om, Lindh, Linnea, Kaul, Nidhi, Rosemann, Nils W., Losada, Iria Bolaño, Johnson, Catherine, Chábera, Pavel, Ilic, Aleksandra, Schwarz, Jesper, Gupta, Arvind Kumar, Uhlig, Jens, Ericsson, Tore, Häggström, Lennart, Huang, Ping, Bendix, Jesper, Strand, Daniel, Yartsev, Arkady, Lomoth, Reiner, Persson, Petter, Wärnmark, Kenneth, Prakash, Om, Lindh, Linnea, Kaul, Nidhi, Rosemann, Nils W., Losada, Iria Bolaño, Johnson, Catherine, Chábera, Pavel, Ilic, Aleksandra, Schwarz, Jesper, Gupta, Arvind Kumar, Uhlig, Jens, Ericsson, Tore, Häggström, Lennart, Huang, Ping, Bendix, Jesper, Strand, Daniel, Yartsev, Arkady, Lomoth, Reiner, Persson, Petter, and Wärnmark, Kenneth

Abstract

Fe(III) complexes with N-heterocyclic carbene (NHC) ligands belong to the rare examples of Earth-abundant transition metal complexes with long-lived luminescent charge-transfer excited states that enable applications as photosensitizers for charge separation reactions. We report three new hexa-NHC complexes of this class: [Fe(brphtmeimb)2]PF6 (brphtmeimb = [(4-bromophenyl)tris(3-methylimidazol-2-ylidene)borate]–, [Fe(meophtmeimb)2]PF6 (meophtmeimb = [(4-methoxyphenyl)tris(3-methylimidazol-2-ylidene)borate]–, and [Fe(coohphtmeimb)2]PF6 (coohphtmeimb = [(4-carboxyphenyl)tris(3-methylimidazol-2-ylidene)borate]–. These were derived from the parent complex [Fe(phtmeimb)2]PF6 (phtmeimb = [phenyltris(3-methylimidazol-2-ylidene)borate]– by modification with electron-withdrawing and electron-donating substituents, respectively, at the 4-phenyl position of the ligand framework. All three Fe(III) hexa-NHC complexes were characterized by NMR spectroscopy, high-resolution mass spectroscopy, elemental analysis, single crystal X-ray diffraction analysis, electrochemistry, Mößbauer spectroscopy, electronic spectroscopy, magnetic susceptibility measurements, and quantum chemical calculations. Their ligand-to-metal charge-transfer (2LMCT) excited states feature nanosecond lifetimes (1.6–1.7 ns) and sizable emission quantum yields (1.7–1.9%) through spin-allowed transition to the doublet ground state (2GS), completely in line with the parent complex [Fe(phtmeimb)2]PF6 (2.0 ns and 2.1%). The integrity of the favorable excited state characteristics upon substitution of the ligand framework demonstrates the robustness of the scorpionate motif that tolerates modifications in the 4-phenyl position for applications such as the attachment in molecular or hybrid assemblies.

Published

2022

3. Photophysical Integrity of the Iron(III) Scorpionate Framework in Iron(III)-NHC Complexes with Long-Lived 2LMCT Excited States

Author

Prakash, Om, Lindh, Linnea, Kaul, Nidhi, Rosemann, Nils W., Losada, Iria Bolaño, Johnson, Catherine, Chábera, Pavel, Ilic, Aleksandra, Schwarz, Jesper, Gupta, Arvind Kumar, Uhlig, Jens, Ericsson, Tore, Häggström, Lennart, Huang, Ping, Bendix, Jesper, Strand, Daniel, Yartsev, Arkady, Lomoth, Reiner, Persson, Petter, Wärnmark, Kenneth, Prakash, Om, Lindh, Linnea, Kaul, Nidhi, Rosemann, Nils W., Losada, Iria Bolaño, Johnson, Catherine, Chábera, Pavel, Ilic, Aleksandra, Schwarz, Jesper, Gupta, Arvind Kumar, Uhlig, Jens, Ericsson, Tore, Häggström, Lennart, Huang, Ping, Bendix, Jesper, Strand, Daniel, Yartsev, Arkady, Lomoth, Reiner, Persson, Petter, and Wärnmark, Kenneth

Abstract

Fe(III) complexes with N-heterocyclic carbene (NHC) ligands belong to the rare examples of Earth-abundant transition metal complexes with long-lived luminescent charge-transfer excited states that enable applications as photosensitizers for charge separation reactions. We report three new hexa-NHC complexes of this class: [Fe(brphtmeimb)2]PF6 (brphtmeimb = [(4-bromophenyl)tris(3-methylimidazol-2-ylidene)borate]–, [Fe(meophtmeimb)2]PF6 (meophtmeimb = [(4-methoxyphenyl)tris(3-methylimidazol-2-ylidene)borate]–, and [Fe(coohphtmeimb)2]PF6 (coohphtmeimb = [(4-carboxyphenyl)tris(3-methylimidazol-2-ylidene)borate]–. These were derived from the parent complex [Fe(phtmeimb)2]PF6 (phtmeimb = [phenyltris(3-methylimidazol-2-ylidene)borate]– by modification with electron-withdrawing and electron-donating substituents, respectively, at the 4-phenyl position of the ligand framework. All three Fe(III) hexa-NHC complexes were characterized by NMR spectroscopy, high-resolution mass spectroscopy, elemental analysis, single crystal X-ray diffraction analysis, electrochemistry, Mößbauer spectroscopy, electronic spectroscopy, magnetic susceptibility measurements, and quantum chemical calculations. Their ligand-to-metal charge-transfer (2LMCT) excited states feature nanosecond lifetimes (1.6–1.7 ns) and sizable emission quantum yields (1.7–1.9%) through spin-allowed transition to the doublet ground state (2GS), completely in line with the parent complex [Fe(phtmeimb)2]PF6 (2.0 ns and 2.1%). The integrity of the favorable excited state characteristics upon substitution of the ligand framework demonstrates the robustness of the scorpionate motif that tolerates modifications in the 4-phenyl position for applications such as the attachment in molecular or hybrid assemblies.

Published

2022

4. Photophysical Integrity of the Iron(III) Scorpionate Framework in Iron(III)-NHC Complexes with Long-Lived 2LMCT Excited States

Author

Prakash, Om, Lindh, Linnea, Kaul, Nidhi, Rosemann, Nils W., Losada, Iria Bolaño, Johnson, Catherine, Chábera, Pavel, Ilic, Aleksandra, Schwarz, Jesper, Gupta, Arvind Kumar, Uhlig, Jens, Ericsson, Tore, Häggström, Lennart, Huang, Ping, Bendix, Jesper, Strand, Daniel, Yartsev, Arkady, Lomoth, Reiner, Persson, Petter, Wärnmark, Kenneth, Prakash, Om, Lindh, Linnea, Kaul, Nidhi, Rosemann, Nils W., Losada, Iria Bolaño, Johnson, Catherine, Chábera, Pavel, Ilic, Aleksandra, Schwarz, Jesper, Gupta, Arvind Kumar, Uhlig, Jens, Ericsson, Tore, Häggström, Lennart, Huang, Ping, Bendix, Jesper, Strand, Daniel, Yartsev, Arkady, Lomoth, Reiner, Persson, Petter, and Wärnmark, Kenneth

Abstract

Fe(III) complexes with N-heterocyclic carbene (NHC) ligands belong to the rare examples of Earth-abundant transition metal complexes with long-lived luminescent charge-transfer excited states that enable applications as photosensitizers for charge separation reactions. We report three new hexa-NHC complexes of this class: [Fe(brphtmeimb)2]PF6 (brphtmeimb = [(4-bromophenyl)tris(3-methylimidazol-2-ylidene)borate]–, [Fe(meophtmeimb)2]PF6 (meophtmeimb = [(4-methoxyphenyl)tris(3-methylimidazol-2-ylidene)borate]–, and [Fe(coohphtmeimb)2]PF6 (coohphtmeimb = [(4-carboxyphenyl)tris(3-methylimidazol-2-ylidene)borate]–. These were derived from the parent complex [Fe(phtmeimb)2]PF6 (phtmeimb = [phenyltris(3-methylimidazol-2-ylidene)borate]– by modification with electron-withdrawing and electron-donating substituents, respectively, at the 4-phenyl position of the ligand framework. All three Fe(III) hexa-NHC complexes were characterized by NMR spectroscopy, high-resolution mass spectroscopy, elemental analysis, single crystal X-ray diffraction analysis, electrochemistry, Mößbauer spectroscopy, electronic spectroscopy, magnetic susceptibility measurements, and quantum chemical calculations. Their ligand-to-metal charge-transfer (2LMCT) excited states feature nanosecond lifetimes (1.6–1.7 ns) and sizable emission quantum yields (1.7–1.9%) through spin-allowed transition to the doublet ground state (2GS), completely in line with the parent complex [Fe(phtmeimb)2]PF6 (2.0 ns and 2.1%). The integrity of the favorable excited state characteristics upon substitution of the ligand framework demonstrates the robustness of the scorpionate motif that tolerates modifications in the 4-phenyl position for applications such as the attachment in molecular or hybrid assemblies.

Published

2022

5. Photophysical Integrity of the Iron(III) Scorpionate Framework in Iron(III)-NHC Complexes with Long-Lived 2LMCT Excited States

Author

Prakash, Om, Lindh, Linnea, Kaul, Nidhi, Rosemann, Nils W., Losada, Iria Bolaño, Johnson, Catherine, Chábera, Pavel, Ilic, Aleksandra, Schwarz, Jesper, Gupta, Arvind Kumar, Uhlig, Jens, Ericsson, Tore, Häggström, Lennart, Huang, Ping, Bendix, Jesper, Strand, Daniel, Yartsev, Arkady, Lomoth, Reiner, Persson, Petter, Wärnmark, Kenneth, Prakash, Om, Lindh, Linnea, Kaul, Nidhi, Rosemann, Nils W., Losada, Iria Bolaño, Johnson, Catherine, Chábera, Pavel, Ilic, Aleksandra, Schwarz, Jesper, Gupta, Arvind Kumar, Uhlig, Jens, Ericsson, Tore, Häggström, Lennart, Huang, Ping, Bendix, Jesper, Strand, Daniel, Yartsev, Arkady, Lomoth, Reiner, Persson, Petter, and Wärnmark, Kenneth

Abstract

Fe(III) complexes with N-heterocyclic carbene (NHC) ligands belong to the rare examples of Earth-abundant transition metal complexes with long-lived luminescent charge-transfer excited states that enable applications as photosensitizers for charge separation reactions. We report three new hexa-NHC complexes of this class: [Fe(brphtmeimb)2]PF6 (brphtmeimb = [(4-bromophenyl)tris(3-methylimidazol-2-ylidene)borate]–, [Fe(meophtmeimb)2]PF6 (meophtmeimb = [(4-methoxyphenyl)tris(3-methylimidazol-2-ylidene)borate]–, and [Fe(coohphtmeimb)2]PF6 (coohphtmeimb = [(4-carboxyphenyl)tris(3-methylimidazol-2-ylidene)borate]–. These were derived from the parent complex [Fe(phtmeimb)2]PF6 (phtmeimb = [phenyltris(3-methylimidazol-2-ylidene)borate]– by modification with electron-withdrawing and electron-donating substituents, respectively, at the 4-phenyl position of the ligand framework. All three Fe(III) hexa-NHC complexes were characterized by NMR spectroscopy, high-resolution mass spectroscopy, elemental analysis, single crystal X-ray diffraction analysis, electrochemistry, Mößbauer spectroscopy, electronic spectroscopy, magnetic susceptibility measurements, and quantum chemical calculations. Their ligand-to-metal charge-transfer (2LMCT) excited states feature nanosecond lifetimes (1.6–1.7 ns) and sizable emission quantum yields (1.7–1.9%) through spin-allowed transition to the doublet ground state (2GS), completely in line with the parent complex [Fe(phtmeimb)2]PF6 (2.0 ns and 2.1%). The integrity of the favorable excited state characteristics upon substitution of the ligand framework demonstrates the robustness of the scorpionate motif that tolerates modifications in the 4-phenyl position for applications such as the attachment in molecular or hybrid assemblies.

Published

2022

6. Luminescence and reactivity of a charge-transfer excited iron complex with nanosecond lifetime

Author

Kjmer, Kasper Skov, Kaul, Nidhi, Prakash, Om, Chabera, Pavel, Rosemann, Nils W., Honarfar, Alireza, Gordivska, Olga, Fredin, Lisa A., Bergquist, Karl-Erik, Häggström, Lennart, Ericsson, Tore, Lindh, Linnea, Yartsev, Arkady, Styring, Stenbjörn, Huang, Ping, Uhlug, Jens, Bendix, Jesper, Strand, Daniel, Sundström, Villy, Persson, Petter, Lomoth, Reiner, Wärnmark, Kenneth, Kjmer, Kasper Skov, Kaul, Nidhi, Prakash, Om, Chabera, Pavel, Rosemann, Nils W., Honarfar, Alireza, Gordivska, Olga, Fredin, Lisa A., Bergquist, Karl-Erik, Häggström, Lennart, Ericsson, Tore, Lindh, Linnea, Yartsev, Arkady, Styring, Stenbjörn, Huang, Ping, Uhlug, Jens, Bendix, Jesper, Strand, Daniel, Sundström, Villy, Persson, Petter, Lomoth, Reiner, and Wärnmark, Kenneth

Abstract

Iron's abundance and rich coordination chemistry are potentially appealing features for photochemical applications. However, the photoexcitable charge-transfer states of most iron complexes are limited by picosecond or subpicosecond deactivation through low-lying metal-centered states, resulting in inefficient electron-transfer reactivity and complete lack of photoluminescence. In this study, we show that octahedral coordination of iron(Ill) by two mono-anionic facial tris-carbene ligands can markedly suppress such deactivation. The resulting complex [Fe(phtmeimb)(2)](+), where phtmeimb is {phenyl[tris(3-methylimidazol-1-ylidene)]borate}(-), exhibits strong, visible, room temperature photoluminescence with a 2.0-nanosecond lifetime and 2% quantum yield via spin-allowed transition from a doublet ligand-to-metal charge-transfer ((LMCT)-L-2) state to the doublet ground state. Reductive and oxidative electron-transfer reactions were observed for the (2)LMCTstate of [Fe(phtmeimb)(2)](+) in bimolecular quenching studies with methylviologen and diphenylamine.

Published

2019