Heteroleptic Copper Photosensitizers: Why an Extended π‐System Does Not Automatically Lead to Enhanced Hydrogen Production

Heberle, Martin; Tschierlei, Stefanie; Rockstroh, Nils; Ringenberg, Mark R.; Frey, Wolfgang; Junge, Henrik; Beller, Matthias; Lochbrunner, Stefan; Karnahl, Michael

doi:10.1002/chem.201604005

Cited by 95 publications

(169 citation statements)

References 59 publications

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“…On the other hand, the development of chelate N‐donor ligands, including 1,10‐phenanthroline (phen) and the derivatives of phen, is rapid. The introduction of N‐donor ligands may cause the enhancement of fluorescence properties and the structural diversity of complexes . Moreover, the complexes composed of two ligands containing N and P exhibit supramolecular , self‐assembly through hydrogen bonds, π–π interactions, and C–H ··· π interactions .…”

Section: Introductionmentioning

confidence: 99%

Synthesis, Characterization, and Luminescent Properties of Silver(I) Complexes based on Diphosphine Ligands and 6,7‐Dicyanodipyridoquinoxaline

Cui

et al. 2017

Zeitschrift anorg allge chemie

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Five mono‐nuclear silver (I) complexes with 6,7‐dicyanodipyridoquinoxaline ligand, namely {[Ag(DPEphos)(dicnq)]NO3}2·CH3OH (1), [Ag(DPEphos)(dicnq)]BF4·CH3OH (2), [Ag(XANTphos)(dicnq)]CF3SO3 (3), {[Ag(XANTphos)(dicnq)]NO3}2 (4), and [Ag(XANTphos)(dicnq)]ClO4·CH2Cl2 (5) {DPEphos = bis[2‐(diphenylphosphanyl)phenyl]ether, dicnq = 6,7‐dicyanodipyridoquinoxaline, XANTphos = 9,9‐dimethyl‐4,5‐bis(diphenylphosphanyl)xanthene} were characterized by X‐ray diffraction, IR, 1H NMR, 31P NMR, fluorescence spectra, and terahertz time‐domain spectra (THz‐TDS). In the five complexes the AgI, which is coordinated by two kinds of chelating ligands, adopts four‐coordinate modes to generate mono‐nuclear structures. The C–H···π interactions lead to formation of a 1D infinite chain for complexes 2 and 3. The crystal packing of complexes 1 and 5 reveal that they form 3D supermolecular network by several pairs of C–H···π interactions. The emissions of these complexes are attributed to ligands‐centered [π–π*] transition based on both of the P‐donor and N‐donor ligands.

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Section: Introductionmentioning

confidence: 99%

Synthesis, Characterization, and Luminescent Properties of Silver(I) Complexes based on Diphosphine Ligands and 6,7‐Dicyanodipyridoquinoxaline

Cui

et al. 2017

Zeitschrift anorg allge chemie

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“…It is notable that the tert-amine-containing complexes,C u-TPAPhen and Cu-DMAPhen, showedp eculiar photophysical properties totally different from the other Cu I complexes.T hese two complexes showedo ne order of magnitude higher molar absorptivities (e)i nt he visible region and significantly higherP LQYs compared to the other complexes (see Figure 1a nd Ta ble 1). [7][8][9][12][13][14] In contrast, the HOMO of Cu-TPAPheni sl ocalizedi nt he amine moieties, and the electronic transition can be assigned to intra-ligand charge-transfer (ILCT). Although such long PL lifetimes of [Cu I (P^P)(N^N)] + complexes have been attributed to the thermally activated delayedf luorescence( TADF), [11] the significantly different absorption and emission behaviors of tert- amine-containing complexes compared to those of other Cu I complexes should be rationalized.…”

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confidence: 99%

Designing Highly Efficient Cu^I Photosensitizers for Photocatalytic H₂ Evolution from Water

2017

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A series of Cu photosensitizers was synthesized, characterized, and investigated for photocatalytic H evolution from water. A structure-property correlation was established for their catalytic activity and photophysical properties, which was further elaborated by DFT calculations. A new Cu photosensitizer (Cu-TPAPhen) with triphenylamine-substituted phenanthroline ligands showed unprecedentedly high turnover numbers of 19 000 when tested in combination with triethylamine as a sacrificial reagent and colloidal Pt as a H evolution catalyst. This work paves the way toward cheap metal-based photosensitizers which can replace noble-metal complexes in photocatalytic systems.

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“…The much lower yield of C3 significantly differs from all other complexes and might be caused by steric constraints (two adjacent phenyl groups) and hence kinetic instability in solution. Such instability, for example, substitution reactions in solution, is well known from sterically congested homo‐ and heteroleptic Cu I complexes …”

Section: Resultsmentioning

confidence: 99%

“…Unfortunately, a limited stability under operating conditions still hampers their large‐scale application in molecular solar energy conversion schemes . It is known, that in particular heteroleptic Cu I complexes of the type [(P^P)Cu(N^N)] + (with P^P representing a diphosphine and N^N a diimine ligand) can undergo ligand exchange reactions in solution upon light irradiation . This is mainly caused by the formation of thermodynamically more favored homoleptic bisdiimine complex [Cu(N^N) 2 ] + .…”

Section: Introductionmentioning

confidence: 99%

“…It is known, that in particular heteroleptic Cu I complexes of the type [(P^P)Cu(N^N)] + (with P^P representing a diphosphine and N^N a diimine ligand) can undergo ligand exchange reactions in solution upon light irradiation . This is mainly caused by the formation of thermodynamically more favored homoleptic bisdiimine complex [Cu(N^N) 2 ] + . Hence, this drawback drove the search and development of novel Cu I complexes with an increased stability, but also having other desired properties like a broad absorption in the visible and a reversible redoxchemistry …”

Section: Introductionmentioning

confidence: 99%

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Copper(I) Phosphinooxazoline Complexes: Impact of the Ligand Substitution and Steric Demand on the Electrochemical and Photophysical Properties

Giereth

Mengele

Frey

et al. 2020

Chemistry A European J

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A series of seven homoleptic CuI complexes based on hetero‐bidentate P^N ligands was synthesized and comprehensively characterized. In order to study structure–property relationships, the type, size, number and configuration of substituents at the phosphinooxazoline (phox) ligands were systematically varied. To this end, a combination of X‐ray diffraction, NMR spectroscopy, steady‐state absorption and emission spectroscopy, time‐resolved emission spectroscopy, quenching experiments and cyclic voltammetry was used to assess the photophysical and electrochemical properties. Furthermore, time‐dependent density functional theory calculations were applied to also analyze the excited state structures and characteristics. Surprisingly, a strong dependency on the chirality of the respective P^N ligand was found, whereas the specific kind and size of the different substituents has only a minor impact on the properties in solution. Most importantly, all complexes except C3 are photostable in solution and show fully reversible redox processes. Sacrificial reductants were applied to demonstrate a successful electron transfer upon light irradiation. These properties render this class of photosensitizers as potential candidates for solar energy conversion issues.

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Heteroleptic Copper Photosensitizers: Why an Extended π‐System Does Not Automatically Lead to Enhanced Hydrogen Production

Cited by 95 publications

References 59 publications

Synthesis, Characterization, and Luminescent Properties of Silver(I) Complexes based on Diphosphine Ligands and 6,7‐Dicyanodipyridoquinoxaline

Synthesis, Characterization, and Luminescent Properties of Silver(I) Complexes based on Diphosphine Ligands and 6,7‐Dicyanodipyridoquinoxaline

Designing Highly Efficient Cu^I Photosensitizers for Photocatalytic H₂ Evolution from Water

Copper(I) Phosphinooxazoline Complexes: Impact of the Ligand Substitution and Steric Demand on the Electrochemical and Photophysical Properties

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Heteroleptic Copper Photosensitizers: Why an Extended π‐System Does Not Automatically Lead to Enhanced Hydrogen Production

Cited by 95 publications

References 59 publications

Synthesis, Characterization, and Luminescent Properties of Silver(I) Complexes based on Diphosphine Ligands and 6,7‐Dicyanodipyridoquinoxaline

Synthesis, Characterization, and Luminescent Properties of Silver(I) Complexes based on Diphosphine Ligands and 6,7‐Dicyanodipyridoquinoxaline

Designing Highly Efficient CuI Photosensitizers for Photocatalytic H2 Evolution from Water

Copper(I) Phosphinooxazoline Complexes: Impact of the Ligand Substitution and Steric Demand on the Electrochemical and Photophysical Properties

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Designing Highly Efficient Cu^I Photosensitizers for Photocatalytic H₂ Evolution from Water