Your search keyword '"IRIDIUM"' showing total 39,578 results

1. Optical properties and exciton transfer between N-heterocyclic carbene iridium(III) complexes for blue light-emitting diode applications from first principles.

Author

Lebedeva, Irina V. and Jornet-Somoza, Joaquim

Subjects

*PHOSPHORESCENCE, *LIGHT emitting diodes, *IRIDIUM, *OPTICAL properties, *OSCILLATOR strengths, *SPIN-orbit interactions

Abstract

N-heterocyclic carbene (NHC) iridium(III) complexes are considered as promising candidates for blue emitters in organic light-emitting diodes. They can play the roles of the emitter as well as of electron and hole transporters in the same emission layer. We investigate optical transitions in such complexes with account of geometry and electronic structure changes upon excitation or charging and exciton transfer between the complexes from first principles. It is shown that excitation of NHC iridium complexes is accompanied by a large reorganization energy ∼0.7 eV and a significant loss in the oscillator strength, which should lead to low exciton diffusion. Calculations with account of spin–orbit coupling reveal a small singlet–triplet splitting ∼0.1 eV, whereas the oscillator strength for triplet excitations is found to be an order of magnitude smaller than for the singlet ones. The contributions of the Förster and Dexter mechanisms are analyzed via the explicit integration of transition densities. It is shown that for typical distances between emitter complexes in the emission layer, the contribution of the Dexter mechanism should be negligible compared to the Förster mechanism. At the same time, the ideal dipole approximation, although giving the correct order of the exciton coupling, fails to reproduce the result taking into account spatial distribution of the transition density. For charged NHC complexes, we find a number of optical transitions close to the emission peak of the blue emitter with high exciton transfer rates that can be responsible for exciton–polaron quenching. The nature of these transitions is analyzed. [ABSTRACT FROM AUTHOR]

Published

2024

2. Photoejection–recapture of the Ca2+ cation studied by time resolved spectroscopy and TDDFT calculations: the case study of an azacrown–iridium(III) complex.

Author

Guerrin, Clément, De Thieulloy, Laure, Dubois, Julien, Barois, Clément, Perrier, Aurélie, Leray, Isabelle, Mongin, Cedric, and Aloise, Stephane

Subjects

*TIME-resolved spectroscopy, *TIME-dependent density functional theory, *CALCIUM ions, *BIOSENSORS, *IRIDIUM, *OPTOELECTRONIC devices

Abstract

In this study, we examined the photophysical properties of an azacrown–iridium(III) complex while focusing on its interactions with calcium ions (Ca2+). We explored the dynamic processes within the complex combining time-dependent density functional theory (TDDFT) calculations and time-resolved spectroscopies. In the presence of Ca2+, the complex exhibits significant shifts in absorption and emission profiles, from 494 nm to 375 nm, aligning with theoretical predictions. Notably, we observed the ultrafast photo-ejection of Ca2+ within 70 femtoseconds, followed by its recapture in 250 nanoseconds, revealing a 10-million-fold timescale difference between the two phenomena. These behaviors confirm the established photophysical properties of polypyridyl iridium(III) complexes and their intrinsic sensitivity to their surrounding environment. Our comprehensive kinetic analysis highlights the azacrown moiety's competitive binding and photo-release capabilities, suggesting its potential for practical sensing applications. The versatile properties of these iridium(III) complexes offer promising prospects for their application as stimuli-responsive materials and in advanced optoelectronic devices, targeted imaging, and biomedical ion sensors and delivery systems. [ABSTRACT FROM AUTHOR]

Published

2024

3. Half‐sandwich iridium complexes: Synthesis and catalytic activity in dehydrogenation of alcohols to carboxylic acids.

Author

Ye, Lin‐Wu and Yao, Zi‐Jian

Subjects

*IRIDIUM catalysts, *CATALYTIC activity, *IRIDIUM, *ALIPHATIC alcohols, *BIOCHEMICAL substrates, *CARBOXYLIC acids, *CATALYTIC dehydrogenation

Abstract

A series of N,N‐chelate half‐sandwich iridium complexes were synthesized by a simple method with good yields. The dehydrogenation of a series of aromatic and aliphatic primary alcohols to corresponding carboxylic acids has been successfully achieved by the prepared air stable iridium complexes under mild reaction conditions. Carboxylic acids were obtained in high yields under open flask condition with broad substrates and good tolerance to sensitive functional groups. Such a half‐sandwich iridium catalyst system showed desirable stability and catalytic activity, and the achievement of a high TOF of 372.0 h−1 could be observed with an extremely low catalyst loading of only 0.05 mol%. Furthermore, the sustainable catalyst could be reused for a minimum of five cycles without obviously losing its activity, highlighting its potential application in industry. Structure of N,N‐chelate iridium complexes 1 and 3 were determined by single‐crystal X‐ray analysis. [ABSTRACT FROM AUTHOR]

Published

2024

4. 改进的小型硫镍试金法测定废渣中微量铑和铱.

Author

钱栋, 贾贵发, 滕龙, 白鑫, 杨辉, 邱磊, 艾姝含, and 赵文虎

Abstract

Copyright of Precious Metals / Guijinshu is the property of Precious Metals Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

5. 氧化■共沉淀分离■电感耦合等离子体原子发射 光谱(ICP-AES)法测定錶复杂物料中的錶量

Author

刘伟, 崇彪, 刘文, 罗仙, 张天琦, 林波, and 罗雄

Subjects

INDUCTIVELY coupled plasma atomic emission spectrometry, COPPER, PLATINUM group, COOLING of water, IRON-nickel alloys, IRIDIUM

Abstract

Copyright of Chinese Journal of Inorganic Analytical Chemistry / Zhongguo Wuji Fenxi Huaxue is the property of Beijing Research Institute of Mining & Metallurgy Technology Group and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

6. SPOs as Non‐Innocent Ligands in Chiral‐at‐Iridium Catalyzed Asymmetric Hydrogenations.

Author

Pazos, Ariadna and Freixa, Zoraida

Subjects

*TRANSFER hydrogenation, *ASYMMETRIC synthesis, *BIFUNCTIONAL catalysis, *PHOSPHINE oxides, *LIGANDS (Chemistry), *HYDROGENATION

Abstract

A series of bis‐cyclometalated chiral‐at‐metal iridium(III) complexes containing a coordinated secondary phosphine oxide (SPO) have been synthesized and evaluated as catalysts in the asymmetric transfer hydrogenation (ATH) of acetophenone. The catalytic results show that SPO ligands have a non‐innocent role in activating the catalytic process. Additionally, it has been observed that for the same chiral descriptor (Δ‐at‐Ir or Λ‐at‐Ir), the major enantiomer formed depends on the nature of the cyclometalating ligand. These enantiodivergent results contravene the general assumption that the chiral‐at‐metal core's chirality dictates the sense of the chiral induction. A combined analysis of the main structural features of the catalysts deduced from XRD structures and in situ NMR spectroscopy allowed us to propose a simplified catalytic cycle and a working hypothesis to explain the observed enantioselectivities. [ABSTRACT FROM AUTHOR]

Published

2024

7. Boosting Effect of Sterically Protected Glucosyl Substituents in Formic Acid Dehydrogenation by Iridium(III) 2‐Pyridineamidate Catalysts.

Author

Trotta, Caterina, Langellotti, Vincenzo, Manco, Immacolata, Rodriguez, Gabriel Menendez, Rocchigiani, Luca, Zuccaccia, Cristiano, Ruffo, Francesco, and Macchioni, Alceo

Subjects

ACID catalysts, CATALYST testing, HYDROGEN storage, NUCLEAR magnetic resonance spectroscopy, ISOMERS, FORMIC acid

Abstract

[Cp*Ir(R‐pica)Cl] (Cp*=pentamethylcyclopentadienyl anion, pica=2‐picolineamidate) complexes bearing carbohydrate substituents on the amide nitrogen atom (R=methyl‐β‐D‐gluco‐pyranosid‐2‐yl, 1; methyl‐3,4,6‐tri‐O‐acetyl‐β‐D‐glucopyranosid‐2‐yl, 2) were tested as catalysts for formic acid dehydrogenation in water. TOFMAX values over 12000 h−1 and 50000 h−1 were achieved at 333 K for 1 and 2, respectively, with TON values over 35000 for both catalysts. Comparison with the simpler cyclohexyl‐substituted analogue (3) indicated that glucosyl‐based complexes are much better performing under the same experimental conditions (TOFMAX=5144 h−1, TON=5000 at pH 2.5 for 3) owing to a lower tendency to isomerize to the less active k2‐N,O isomer upon protonation. The 5‐fold increase in TOFMAX observed for 2 with respect to 1 is reasonably due to an optimal steric protection by the acetyl substituent, which may prevent unproductive inner‐sphere reactivity. These results showcase a powerful strategy for the inhibition of the common deactivation pathways of [Cp*Ir(R‐pica)X] catalysts for FA dehydrogenation, paving the way for the development of better performing hydrogen storage systems. [ABSTRACT FROM AUTHOR]

Published

2024

8. Dual-emitting cyclometalated Ir(III) complexes with salicylaldimine-bound fluorophores for ratiometric oxygen sensing.

Author

Tidma, Sirawit, Sutton, Gregory D., Dang, Linh T. M., Jiang, Chenggang, and Teets, Thomas S.

Subjects

*PARTIAL pressure, *FLUOROPHORES, *IRIDIUM, *FLUORESCENCE, *DETECTORS, *PHOSPHORESCENCE

Abstract

A new class of oxygen-sensing dual-emitting cyclometalated Ir(III) complexes is described. They function as ratiometric sensors that combine the blue fluorescence from coumarin as a self-referenced internal standard with yellow to red phosphorescence from bis-cyclometalated iridium complexes. The compounds have phosphorescence quantum yields up to 15%, lifetimes ranging from 0.23 to 9.4 μs, and are capable of sensing a wide range of O2 partial pressures. [ABSTRACT FROM AUTHOR]

Published

2024

9. Enhanced Emitting Dipole Orientation Based on Asymmetric Iridium(III) Complexes for Efficient Saturated‐Blue Phosphorescent OLEDs.

Author

Shi, Kefei, Wu, Chengcheng, Zhang, He, Tong, Kai‐Ning, He, Wei, Li, Wansi, Jin, Zhaoyun, Jung, Sinyeong, Li, Siqi, Wang, Xin, Gong, Shaolong, Zhang, Yuewei, Zhang, Dongdong, Kang, Feiyu, Chi, Yun, Yang, Chuluo, and Wei, Guodan

Subjects

*COMPUTER-assisted molecular design, *MOLECULAR orientation, *QUANTUM efficiency, *DENSITY functional theory, *PHOSPHORESCENCE, *CRYSTAL structure, *CARBAZOLE

Abstract

Three novel asymmetric Ir(III) complexes have been rationally designed to optimize their emitting dipole orientations (EDO) and enhance light outcoupling in blue phosphorescent organic light‐emitting diodes (OLEDs), thereby boosting their external quantum efficiency (EQE). Bulky electron‐donating groups (EDGs), namely: carbazole (Cz), di‐tert‐butyl carbazole (tBuCz), and phenoxazine (Pxz) are incorporated into the tridentate dicarbene pincer chelate to induce high degree of packing anisotropy, simultaneously enhancing their photophysical properties. Angle‐dependent photoluminescence (ADPL) measurements indicate increased horizontal transition dipole ratios of 0.89 and 0.90 for the Ir(III) complexes Cz‐dfppy‐CN and tBuCz‐dfppy‐CN, respectively. Analysis of the single crystal structure and density functional theory (DFT) calculation results revealed an inherent correlation between molecular aspect ratio and EDO. Utilizing the newly obtained emitters, the blue OLED devices demonstrated exceptional performance, achieving a maximum EQE of 30.7% at a Commission International de l'Eclairage (CIE) coordinate of (0.140, 0.148). Optical transfer matrix‐based simulations confirmed a maximum outcoupling efficiency of 35% due to improved EDO. Finally, the tandem OLED and hyper‐OLED devices exhibited a maximum EQE of 44.2% and 31.6%, respectively, together with good device stability. This rational molecular design provides straightforward guidelines to reach highly efficient and stable saturated blue emission. [ABSTRACT FROM AUTHOR]

Published

2024

10. Ir(III) Diamine Transfer Hydrogenation Catalysts in Cancer Cells.

Author

Fry, Millie E., Alsaif, Sitah A., Khanom, Yasmin, Keirle, Alice K., Pheasey, Chloe E., Song, Ji Inn, Bedford, Rebecca A., Romero‐Canelon, Isolda, Sadler, Peter J., and Coverdale, James P. C.

Subjects

*TRANSITION metal complexes, *CANCER cells, *OXIDATIVE stress, *BIOCHEMICAL substrates, *BREAST cancer, *TRANSFER hydrogenation

Abstract

The development of catalytic metallodrugs is an emerging field that may offer new approaches to cancer chemotherapeutic design. By exploiting the unique properties of transition metal complexes, in‐cell catalysis can be applied to modulate the cellular redox balance as part of a multi‐targeting mechanism of action. We describe the synthesis and characterization of six coordinatively unsaturated iridium(III) diamine catalysts that are stable at physiological pH in aqueous solution. Reduction of the colorimetric substrate 2,6‐dichlorophenolindophenol by transfer hydrogenation under biologically compatible conditions achieved turnover frequencies up to 63 ± 2 h−1 and demonstrated that the source of hydride (sodium formate) is the limiting reagent, despite being in a 1000‐fold excess of the catalyst. The catalyst showed low in vivo acute toxicity in zebrafish embryos and modest in vitro potency towards cancer cells. When administered alone, the catalyst generated oxidative stress in cells (an effect that was conserved in vivo), but co‐treatment with a nontoxic dose of sodium formate negated this effect. Co‐treatment with sodium formate significantly enhanced catalyst potency in cancer cells (A2780 ovarian and MCF7 breast cancer cells) and drug‐resistant cells (A2780cis and MCF7‐TAMR1) but not in non‐tumorigenic cells (MRC5), demonstrating that a redox‐targeting mechanism may generate selectivity for cancer cells. [ABSTRACT FROM AUTHOR]

Published

2024

11. Sterically Controlled Lewis Acid−Base Interaction Toward para‐Selective Borylation of Aromatic Aldimines and Benzylamines.

Author

Guria, Saikat, Hassan, Mirja Md Mahamudul, Dey, Sayan, Singh, Krishna Nand, and Chattopadhyay, Buddhadeb

Subjects

*BENZYLAMINES, *HOMOGENEOUS catalysis, *ALDIMINES, *BORYLATION, *IRIDIUM

Abstract

Site‐selective C−H bond functionalization of arenes at the para position remains extremely challenging primarily due to its relative inaccessibility from the catalytic site. As a consequence, it is significantly restricted to limited molecular scaffolds. Herein, we report a method for the para‐C−H borylation of aromatic aldimines and benzylamines using commercially available ligands under iridium catalysis. The established method displays excellent para selectivity for variously substituted aromatic aldimines, benzylamines and bioactive molecules. Based on several control experiments, it is proposed that a Lewis acid−base interaction between the nitrogen and boron functionality guides the para selectivity via a steric shield for the aromatic aldimines, where Bpin acts as a transient directing group. However, the steric shield of the in situ generated N−Bpin moiety controlled the overall selectivity for the para borylation of benzylamines. [ABSTRACT FROM AUTHOR]

Published

2024

12. A noble nexus: a phosphino-phen ligand for tethering precious metals.

Author

Newman, Paul D., Platts, James A., Alrashidi, Basheer, Pope, Simon J. A., and Kariuki, Benson M.

Subjects

*PRECIOUS metals, *GOLD compounds, *LIGANDS (Chemistry), *IRIDIUM, *RHENIUM

Abstract

Controlled formation of mixed-metal bimetallics was achieved via two derivatised 1,10-phenanthroline ligands bearing an imino- or amino-phosphine appendage at the 5-position. Selective coordination of the phen group to the [Re(CO)3Cl] core was achieved enabling precise construction of bimetallic complexes with a second rhenium centre or with gold. The mixed Ru/Au complex was similarly obtained with the imino-phosphine but access to the heterobimetallic iridium systems required prior formation of the P-bound gold complexes subsequent to the introduction of the [Ir(Ppy)2]+ fragment. The Re/Pd, Re/Pt, Ir/Pd and Ir/Pt compounds were prepared from the combination of κ-N′′,P-Pd(Pt)Cl2 and the appropriate rhenium or iridium precursors. Spectroscopic and theoretical analyses have been employed to investigate the structural and electronic impact of the second metal. [ABSTRACT FROM AUTHOR]

Published

2024

13. Annealing 1,2,4-triazine to iridium(III) complexes induces luminogenic behaviour in bioorthogonal reactions with strained alkynes.

Author

Cooke, Lydia, Gristwood, Katie, Adamson, Kate, Sims, Mark T., Deary, Michael E., Bruce, Dawn, Antoniou, Antony N., Walden, Hannah R., Knight, James C., Antoine-Brunet, Timothé, Joly, Marie, Goyard, David, Lanoë, Pierre-Henri, Berthet, Nathalie, and Kozhevnikov, Valery N.

Subjects

*COMPLEX compounds, *IRIDIUM, *METALS, *ALKYNES, *IMMUNOGLOBULINS

Abstract

A phenanthroline-type ligand containing an annealed 1,2,4-triazine ring was used to prepare novel Ir(III) complexes 3 and 4. The complexes are non-luminescent but show luminogenic behaviour following the inverse electron demand Diels–Alder (IEDDA) reaction with bicyclononyne (BCN) derivatives. It was observed that the complexes react with BCN-C10 faster than the corresponding free ligands. The magnitude of this accelerating metal-coordination effect, however, is less profound than in previously reported Ir(III) complexes of 1,2,4-triazines, in which the triazine was directly coordinated to the Ir(III) metal centre. Nevertheless, luminogenic behaviour opens prospects for the use of such complexes in bioimaging applications, which was demonstrated by developing a convenient methodology using the "chemistry on the complex" concept for labelling antibodies with luminescent Ir(III) complexes. The bioorthogonal reactivity of complex 4 was demonstrated by metabolically labelling live cells with BCN groups, followed by a luminogenic IEDDA reaction with the triazine iridium complex. [ABSTRACT FROM AUTHOR]

Published

2024

14. Quantifying the topology of magnetic skyrmions in three dimensions.

Author

Raftrey, David, Finizio, Simone, Chopdekar, Rajesh V., Dhuey, Scott, Bayaraa, Temuujin, Ashby, Paul, Raabe, Jörg, Santos, Tiffany, Griffin, Sinéad, and Fischer, Peter

Subjects

*TOMOGRAPHY, *SKYRMIONS, *ENERGY density, *IRIDIUM, *SPINTRONICS

Abstract

Magnetic skyrmions have so far been treated as two-dimensional spin structures characterized by a topological winding number. However, in real systems with the finite thickness of the device material being larger than the magnetic exchange length, the skyrmion spin texture extends into the third dimension and cannot be assumed as homogeneous. Using soft x-ray laminography, we reconstruct with about 20-nanometer spatial (voxel) size the full three-dimensional spin texture of a skyrmion in an 800-nanometer-diameter and 95-nanometer-thin disk patterned into a 30× [iridium/cobalt/platinum] multilayered film. A quantitative analysis finds that the evolution of the radial profile of the topological skyrmion number is nonuniform across the thickness of the disk. Estimates of the micromagnetic energy densities suggest that the changes in topological profile are related to nonuniform competing energetic interactions. Our results provide a foundation for nanoscale metrology for spintronics devices using topology as a design parameter. [ABSTRACT FROM AUTHOR]

Published

2024

15. A "Talking" between Gold Nanoparticle and a Luminescent Iridium(III) Complex: A Study of the Effect Due to the Interaction between Plasmon Resonance and a Fluorophore.

Author

Candreva, Angela, Ricciardi, Loredana, Szerb, Elisabeta I., and La Deda, Massimo

Subjects

*GOLD nanoparticles, *IRIDIUM compounds, *METAL compounds, *VISIBLE spectra, *IRIDIUM

Abstract

This paper explores a novel synthesis and characterization of silica-coated gold nanorods (AuNRs) embedding a highly emissive cyclometalated iridium(III) complex, denoted as Ir1. We investigate the optical properties and the interplay between the metal compound and gold plasmon, observing how the emission of Ir1 incorporated into the nanoparticles shows two emission bands, one in the blue and the other in the green-orange range of the visible spectrum. To obtain a clearer picture of what we were observing, we synthesized analogous nanosystems, from which it was possible to highlight the effect of different features. Based on what we observed, we proposed that the fraction of the iridium(III) complex in direct contact with the surface of the gold nanoparticle undergoes a "demixing" of the excited state, which, for cyclometalated iridium complexes, is generally considered a mixed LC+MLCT state. This preliminary study sheds light on the complexity of the "talking" between a fluorophore and a plasmonic system, highlighting the importance of considering the emitter typology when modeling such systems. [ABSTRACT FROM AUTHOR]

Published

2024

16. Production of green hydrogen through PEM water electrolysis.

Author

Gouws, Shawn and Mackay, Jason

Subjects

*GREEN fuels, *HYDROGEN as fuel, *WATER electrolysis, *COAL gasification, *CLEAN energy

Abstract

The need for abundant, sustainable, and clean energy is becoming increasingly important in the modern world due to continuous population growth and industrial expansion. Hydrogen (H2) has been identified as a potential energy carrier due to its high gravimetric energy density. Because H2 is not frequently found in its molecular form, it has to be obtained through various methods such as steam methane reforming, coal gasification, fossil fuels, and electrochemical techniques. H2 produced via PEMWE has proved to be an efficient method compared to other electrolysers. The limiting factor of a PEM electrolyser system is the OER catalyst. Commercially, IrO2 and RuO2 are used; however, both these metals are rare and expensive. Current research reports the use of binary metal oxides as an alternative OER catalyst to decrease the overall CAPEX costs. Various synthesis methods are available, with the Adams' fusion method being the simplest. Characterisation techniques used to evaluate the performance of these catalysts include cyclic voltammetry (CV), linear scan voltammetry (LSV), XRD, XRF, SEM/EDS, and chronopotentiometry. Hydrogen as a clean fuel has a broad potential for use across all sectors, including transportation, residential, and industrial. In recent years, extensive research has been done on all aspects of hydrogen production, storage, and transportation. This review paper aims to study other bimetallic metals to reduce the Ir content used as an oxidative evolution reaction to reduce the capital cost of the PEM electrolyser. To produce green hydrogen that could reduce the carbon footprint in several industrial processes. [ABSTRACT FROM AUTHOR]

Published

2024

17. Crystal structures of the (η²:η² -cycloocta-1,5- diene)(η6-toluene)iridium(I) cation and l-chloridoiridium(III) complexes of 2-(phosphinito)- and 2-(phosphinomethyl)anthraquinone ligands.

Author

Thackeray, Sachin, Mahoney, James, Arrington, Ashleigh, Wilklow-Marnell, Miles, and Brennessel, William W.

Subjects

*SPACE groups, *CARBON monoxide, *LIGANDS (Chemistry), *CRYSTAL structure, *IRIDIUM

Abstract

When reacted in dry, degassed toluene, [Ir(COD)Cl]2 (COD = cyclo­octa-1,5-diene) and 2 equivalents of 2-(di-tert-butyl­phosphinito)anthra­quinone (tBuPOAQH) were found to form a unique tri-iridium compound consisting of one monoanionic dinuclear tri-μ-chlorido complex bearing one bidentate tBuPOAQ ligand per iridium, which was charge-balanced by an outer sphere [Ir(toluene)(COD)]+ ion, the structure of which has not previously been reported. This product, which is a toluene solvate, namely, (η²:η²-cyclo­octa-1,5-diene)(η6-toluene)­iridium(I) tri-μ-chlorido-bis­({3-[(di-tert-butyl­phosphan­yl)­oxy]-9,10-dioxoanthracen-2-yl}hydridoiridium(III)) toluene monosolvate, [Ir(C7H8)(C8H12)][Ir2H2(C22H24O3P)2Cl3]·C7H8 or [Ir(toluene)(COD)][Ir(κ-P,C-tBuPOAQ)(H)]2(μ-Cl)3]·toluene, formed as small orange platelets at room temperature, crystallizing in the triclinic space group P1. The cation and anion are linked via weak C—H⋯O inter­actions. The stronger inter­molecular attractions are likely the offset parallel π–π inter­actions, which occur between the toluene ligands of pairs of inverted cations and between pairs of inverted anthra­quinone moieties, the latter of which are capped by toluene solvate mol­ecules, making for π-stacks of four mol­ecules each. The related ligand, 2-(di-tert-butyl­phosphinometh­yl)-anthra­quinone (tBuPCAQH), did not form crystals suitable for X-ray diffraction under analogous reaction conditions. However, when the reaction was conducted in chloro­form, yellow needles readily formed following addition of 1 atm of carbon monoxide. Diffraction studies revealed a neutral, dinuclear, di-μ-chlorido complex, di-μ-chlorido-bis­(carbon­yl{3-[(di-tert-butyl­phosphan­yl)­oxy]-9,10-dioxoanthracen-2-yl}hydridoiridium(I)), [Ir2H2(C23H26O2P)2Cl2(CO)2] or [Ir(κ-P,C-tBuPCAQ)(H)(CO)(μ-Cl)]2, Ir2C48H54Cl2O6P2, again crystallizing in space group P1. Offset parallel π–π inter­actions between anthra­quinone groups of adjacent mol­ecules link the mol­ecules in one dimension. [ABSTRACT FROM AUTHOR]

Published

2024

18. Spectroscopic Investigation of the Remote C–H Allylation of Amides via Photoredox and Nickel Dual Catalysis.

Author

Bourgois, Céline, De Kreijger, Simon, Xu, Bin, Tambar, Uttam K., and Troian-Gautier, Ludovic

Subjects

*ALLYLATION, *ARAMID fibers, *ENERGY transfer, *AMIDES, *CATALYSIS, *IRIDIUM

Abstract

The mechanistic details of a reported allylation reaction are investigated by means of Stern–Volmer experiments and nanosecond transient absorption spectroscopy. Both reference substrates, i.e., an allylic chloride and a trifluoroacetamide, are inefficient quenchers but large quenching rate constants are observed upon the addition of Ni(COD)2 and a bisoxazoline ligand. The large quenching rate constants and absence of observable photoproducts are consistent with a mechanism that operates by energy transfer between the excited-state iridium photosensitizer and the nickel complex. [ABSTRACT FROM AUTHOR]

Published

2024

19. Self-propelled enzyme-controlled IR-mesoporous silica Janus nanomotor for smart delivery.

Author

Mayol, Beatriz, Pradana-López, Sandra, García, Alba, de la Torre, Cristina, Díez, Paula, Villalonga, Anabel, Anillo, Carlos, Vilela, Diana, Sánchez, Alfredo, Martínez-Ruiz, Paloma, Martínez-Máñez, Ramón, and Villalonga, Reynaldo

Subjects

*SILICA nanoparticles, *NANOPARTICLES, *GLUCONIC acid, *GLUCOSE oxidase, *BORONIC esters, *MESOPOROUS silica

Abstract

[Display omitted] Here, we report the preparation of a novel Janus nanoparticle with opposite Ir and mesoporous silica nanoparticles through a partial surface masking with toposelective modification method. This nanomaterial was employed to construct an enzyme-powered nanomachine with self-propulsion properties for on-command delivery. The cargo-loaded nanoparticle was provided with a pH-sensitive gate and unit control at the mesoporous face by first attaching boronic acid residues and further immobilization of glucose oxidase through reversible boronic acid esters with the carbohydrate residues of the glycoenzyme. Addition of glucose leads to the enzymatic production of H 2 O 2 and gluconic acid, being the first compound catalytically decomposed at the Ir nanoparticle face producing O 2 and causing the nanomachine propulsion. Gluconic acid leads to a pH reduction at the nanomachine microenvironment causing the disruption of the gating mechanism with the subsequent cargo release. This work demonstrates that enzyme-mediated self-propulsion improved release efficiency being this nanomotor successfully employed for the smart release of Doxorubicin in HeLa cancer cells. [ABSTRACT FROM AUTHOR]

Published

2024

20. Over 18.2% efficiency of layer–by–layer all–polymer solar cells enabled by homoleptic iridium(III) carbene complex as solid additive.

Author

Zhou, Hang, Sun, Yingjie, Zhang, Miao, Ni, Yuheng, Zhang, Fenghua, Young Jeong, Sang, Huang, Tianhuan, Li, Xiong, Woo, Han Young, Zhang, Jian, Wong, Wai-Yeung, Ma, Xiaoling, and Zhang, Fujun

Subjects

*SOLAR cells, *ENERGY transfer, *SOLAR energy, *PRODUCTION sharing contracts (Oil & gas), *IRIDIUM

Abstract

The PCE of layer–by–layer all–polymer solar cells is improved from 17.32% to 18.24% by introducing m –Ir(CPmPB) 3 into the PY–DT layer. The exciton diffusion distance of active layers can be increased by incorporating m –Ir(CPmPB) 3 in PY–DT layer, which is mainly due to the efficient energy transfer from m –Ir(CPmPB) 3 to PM6 and PY–DT prolonging the exciton lifetime in active layers. [Display omitted] The vertical phase distribution of active layers plays a vital role in balancing exciton dissociation and charge transport for achieving efficient polymer solar cells (PSCs). The layer–by–layer (LbL) PSCs are commonly prepared by using sequential spin–coating method from donor and acceptor solutions with distinct solvents and solvent additives. The enhanced exciton dissociation is expected in the LbL PSCs with efficient charge transport in the relatively neat donor or acceptor layers. In this work, a series of LbL all–polymer solar cells (APSCs) were fabricated with PM6 as donor and PY–DT as acceptor, and triplet material m –Ir(CPmPB) 3 is deliberately incorporated into PY–DT layer to prolong exciton lifetimes of active layers. The power conversion efficiency (PCE) of LbL APSCs is improved to 18.24% from 17.32% by incorporating 0.3 wt% m –Ir(CPmPB) 3 in PY–DT layer, benefiting from the simultaneously enhanced short–circuit current density (J SC) of 25.17 mA cm−2 and fill factor (FF) of 74.70%. The enhancement of PCE is attributed to the efficient energy transfer of m –Ir(CPmPB) 3 to PM6 and PY–DT, resulting in the prolonged exciton lifetime in the active layer and the increased exciton diffusion distance. The efficient energy transfer from m –Ir(CPmPB) 3 to PM6 and PY–DT layer can be confirmed by the increased photoluminescence (PL) intensity and the prolonged PL lifetime of PM6 and PY–DT in PM6 + m –Ir(CPmPB) 3 and PY–DT + m –Ir(CPmPB) 3 films. This study indicates that the triplet material as solid additive has great potential in fabricating efficient LbL APSCs by prolonging exciton lifetimes in active layers. [ABSTRACT FROM AUTHOR]

Published

2024

21. Organic Light‐Emitting Diodes Combining Thick Inorganic Perovskite Hole Transport Layers and Ultrathin Emitting Layers.

Author

Forzatti, Michele, Chin, Sang‐Hyun, Hernández‐Fenollosa, M Angeles, Sessolo, Michele, Tordera, Daniel, and Bolink, Henk J.

Subjects

*VACUUM deposition, *CHARGE carrier mobility, *PEROVSKITE, *DIODES, *IRIDIUM, *ORGANIC light emitting diodes

Abstract

Organic light‐emitting diodes have a huge gain in popularity over the past 25 years for display and lighting applications, but the production of low‐cost efficient devices remains a challenge. OLEDs using sub‐nanometer undoped emissive layers are a route to fabricate cost‐effective devices but, as they are inherently thin, it opens to issues with variation in thickness and shunting paths. At the same time, lead chloride perovskites are currently being investigated as charge transport materials in light‐emitting devices owing to their wide bandgap, and remarkable high carrier mobility. In this work, for the first time, OLEDs that combine vacuum‐processed thick cesium lead chloride perovskite hole transport layers with ultrathin Ir complex‐based emissive layers are reported. Defects on the perovskite film are suppressed and the thickness of the emitting layer is optimized. Semitransparent devices are also fabricated with an average visible transmittance of over 50%. The results show extraordinarily thick devices (>1 µm) with low turn‐on voltage (3.3 V), high luminance (>15 000 cd m−2) and efficiencies (up to 54.1 cd A−1), and a negligible efficiency roll‐off in the display applications luminance region. [ABSTRACT FROM AUTHOR]

Published

2024

22. Carbon Nanospheres Loaded with Ir Single Atoms: Enhancing the Activity toward Formic Acid Oxidation by Increasing the Porosity.

Author

Jeskey, Jacob, Ding, Yong, Chen, Yidan, Hood, Zachary D., Li, Hongliang, Sterbinsky, George E., and Xia, Younan

Subjects

*OXIDATION of formic acid, *SURFACE area, *IRIDIUM, *ATOMS, *CATALYSTS

Abstract

Theoretically, single‐atom catalysts (SACs) offer 100 % atom utilization, making them strong candidates to replace expensive nanoparticles for catalysis. However, the structural supports used to anchor the SACs dramatically reduce the utilization efficiency of atoms (i. e., the percent of atoms actually accessible by reactants) by either encapsulating the SACs completely or creating severe diffusion limitation. Either of which leads to an overall low atom utilization and thus poor electrocatalytic activity similar to that of nanoparticles. In addressing this issue, we systematically investigated how the porous structure of carbon nanospheres affects the activity of Ir‐SACs toward formic acid oxidation (FAO). Specifically, we utilized a kinetically‐controlled growth strategy to produce uniform carbon nanospheres featuring yolk‐shell, mesoporous, and hollow structures with Ir‐SACs loaded throughout the structure. At a high specific surface area of 441 m2 g−1 and exposed metal content of 1.82 wt %, the Ir‐SACs based on mesoporous carbon nanospheres showed a remarkable FAO peak current density of 30.6 mA cm−2, which was 283 and 46 times greater when benchmarked against the catalysts based on solid carbon nanospheres and 20 wt % Ir/C, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

23. High‐Efficiency Near‐Infrared Iridium(III) Complexes with Tailored Ligands for Solution‐Processed OLEDs with Maximum EQE of 3.75% at 830 nm.

Author

Li, Shaman, Zhang, Yanxin, Dai, Yu, Xu, Jingyi, Meng, Qing‐yu, Wen, Xue‐liang, and Qiao, Juan

Subjects

*QUANTUM efficiency, *ORGANIC bases, *BAND gaps, *ORGANIC light emitting diodes, *IRIDIUM

Abstract

The development of highly efficient pure near‐infrared (NIR) emitting organic materials with emission beyond 800 nm is extremely challenging due to the limitation of the energy gap law. Herein, three efficient NIR emitting iridium(III) complexes are developed adopting pyrido[3,4‐b]pyrazine derivatives as the cyclometalated C^N ligands, namely (Epptt)2Iracac (1), (pptt)2Iracac (2), and (ppCz)2Irtmd (3). Due to the enhanced donor–acceptor interaction inside the ligand, the conjugation‐extended and electron‐richer N‐phenylcarbazole unit at the C‐part of the ligands endows complex 3 with a large bathochromic shift of emission peak from 796 to 862 nm in toluene solution, compared with thieno[3,2‐b]thiophene C‐part in complex 2. The solution‐processed OLEDs based on complex 3 achieved a record high maximum external quantum efficiency of 3.75% and low efficiency roll‐off with the emission peak at 830 nm, a champion efficiency in the Ir(III) based OLEDs with emission peak exceeding 800 nm. This work opens a new avenue for the development of high‐efficiency pure NIR organic emitters based on Ir(III) complexes for various applications. [ABSTRACT FROM AUTHOR]

Published

2024

24. Iridium(III) solvent complex–based electrogenerated chemiluminescence method for the detection of 3-methylhistidine in urine.

Author

Liu, Yu, Li, Yue, Qian, Manping, Wu, Yang, Li, Meng, Zhang, Chengxiao, and Qi, Honglan

Subjects

*MUSCLE proteins, *IRIDIUM, *DETECTION limit, *CHEMILUMINESCENCE, *KIDNEY diseases, *ELECTROLUMINESCENT polymers

Abstract

3-Methylhistidine (3-MeHis) is increasingly used as an indicator of muscle protein breakdown. The development of a sensitive, simple, and non-invasive method for 3-MeHis assay is important in clinical practice. Herein, a sensitive, simple, and non-invasive electrogenerated chemiluminescence (ECL) method was proposed for the quantitation of 3-MeHis in urine by using an iridium(III) solvent complex ([Ir(dfppy)2(DMSO)Cl], dfppy = 2-(2,4-difluorophenyl)pyridine, Ir-DMSO) as a signal reagent. The photoluminescence (PL) and ECL responses of Ir-DMSO to 3-MeHis were studied. The ECL intensity of Ir-DMSO was enhanced in the presence of 3-MeHis because of the coordination recognition between Ir-DMSO and the imidazole group of 3-MeHis. Based on the enhancement of ECL intensity, 3-MeHis can be sensitively detected in the range of 5 to 25 μM. The detection limit was 0.4 μM. This is the first report of an ECL method for the quantitation of 3-MeHis. Further, to investigate the feasibility of the Ir-DMSO-based ECL method in practical applications, the developed ECL method was applied for 3-MeHis assay in urine samples of 28 healthy volunteers and 2 patients. The urine samples from patients hospitalized with obesity and kidney disease and healthy individuals were distinguished by the ECL responses of Ir-DMSO. The proposed ECL method based on the coordination recognition between iridium(III) solvent complex and the imidazole group of 3-MeHis allows inexpensive, fast, non-invasive, and sensitive detection of 3-MeHis in urine, which is promising for assessing large volumes of patients for routine analysis in clinical practices. [ABSTRACT FROM AUTHOR]

Published

2024

25. Rigidity‐Enhanced Narrowband Iridium(III) Complexes with Finely‐Optimized Emission Spectra for Efficient Pure‐Red Electroluminescence.

Author

Yan, Zhi‐Ping, Mao, Meng‐Xi, Liu, Qi‐Ming, Yuan, Li, Luo, Xu‐Feng, Liao, Xiang‐Ji, Cai, Wei, and Zheng, You‐Xuan

Subjects

*QUANTUM efficiency, *GAUSSIAN distribution, *IRIDIUM, *ELECTROLUMINESCENCE, *ORGANIC light emitting diodes, *PHOSPHORESCENCE

Abstract

Attaining phosphorescent materials with narrowband emission is crucial for advancing wide‐color‐gamut organic light‐emitting diode (OLED). Herein, a rigid modification strategy is introduced for iridium(III) complexes to achieve the narrowband red emission with negligible 0–1 peak. By introducing the rigid indolo[3,2,1‐jk]carbazole (ICz) into the cyclometalated ligand, Ir(III) complexes, ICziq‐Ir and ICzqz‐Ir, exhibit pure red phosphorescence with emission peaks at 608 and 613 nm and full widths at half‐maximum (FWHMs) of 37 and 38 nm (0.12 and 0.13 eV) in toluene, respectively. Furthermore, the specific site modification of ICzqz‐Ir greatly suppresses the high‐frequency vibration of the structure, resulting in the narrowband photoluminescent spectrum close to the Gaussian distribution with superior color purity. The OLEDs utilizing ICziq‐Ir and ICzqz‐Ir demonstrate maximum external quantum efficiencies of 21.4 and 17.8% as well as mild efficiency roll‐off. Remarkably, the electroluminescence spectra exhibit similar narrowband red emission with FWHMs of 37 and 43 nm and CIE coordinates of (0.65, 0.35) and (0.66, 0.34), attesting to the excellent color purity of the phosphorescent OLEDs. [ABSTRACT FROM AUTHOR]

Published

2024

26. Long-wavelength triggered iridium(III) complex nanoparticles for photodynamic therapy against hypoxic cancer.

Author

Liu, Shengnan, Wang, Ziwei, Wu, Zihan, Chen, Haoran, Zhu, Dongxia, Li, Gungzhe, Yan, Mingming, Bryce, Martin R., and Chang, Yulei

Subjects

*PHOTODYNAMIC therapy, *REACTIVE oxygen species, *IRIDIUM, *CANCER cells, *NANOPARTICLES

Abstract

A long-wavelength triggered cationic iridium(III) complex, Ir5, and its corresponding nanoparticles with the ability to generate type I and type II reactive oxygen species have been synthesised. The complex targets mitochondria and achieves an excellent photodynamic therapy effect in hypoxic cancer cells. [ABSTRACT FROM AUTHOR]

Published

2024

27. C−H Activation and Hydrogen Isotope Exchange of Aryl Carbamates Using Iridium(I) Complexes Bearing Chelating NHC‐Phosphine Ligands.

Author

Zorzatto, Renan, Mulrainey, Paul T., Reid, Marc, Tuttle, Tell, Lindsay, David M., and Kerr, William J.

Abstract

Hydrogen isotope exchange (HIE) via C−H activation constitutes an efficient method for the synthesis of isotopically‐enriched compounds, which are crucial components of the drug discovery process and are extensively employed in mechanistic studies. A series of iridium(I) complexes, bearing a chelating phosphine‐N‐heterocyclic carbene ligand, was designed and synthesized for application in the catalytic HIE of challenging N‐ and O‐aryl carbamates. A broad range of substrates were labeled efficiently, and applicability to biologically‐relevant systems was demonstrated by labeling an ʟ‐tyrosine‐derived carbamate with excellent levels of deuterium incorporation. Combined theoretical and experimental studies unveiled intriguing mechanistic features within this process, in comparison to C−H activation and hydrogen isotope exchange catalyzed by monodentate Ir(I) NHC/phosphine complexes. [ABSTRACT FROM AUTHOR]

Published

2024

28. Transition Metal Complexes with Appended Benzimidazole Groups for Sensing Dihydrogenphosphate.

Author

Howells, Chloe L., Stocker, Andrew J., Lea, Joshua N., Halcovitch, Nathan R., Patel, Humaira, and Fletcher, Nicholas C.

Subjects

*LIGANDS (Chemistry), *ACETONITRILE, *IRIDIUM, *ANIONS, *IMIDAZOLES

Abstract

Four new complexes [Ru(bpy)2(bbib)](PF6)2, [Ru(phen)2(bbib)](PF6)2, [Re(CO)3(bbib)(py)](PF6) and [Ir(ppy)2(bbib)](PF6) [where bbib=4,4′‐bis(benzimidazol‐2‐yl)‐2,2′‐bipyridine] have been prepared and their photophysical properties determined. Their behaviour has been studied with a variety of anions in acetonitrile, DMSO and 10 % aquated DMSO. Acetate and dihydrogenphosphate demonstrate a redshift in the bbib ligand associated absorptions suggesting that the ligand is strongly interacting with these anions. The 3MLCT emissive state is sensitive to the introduction of small quantities of anion (sub‐stoichiometric quantities) and significant quenching is typically observed with acetate, although this is less pronounced in the presence of water. The emissive behaviour with dihydrogenphosphate is variable, showing systematic changes as anion concentration increases with several distinct interactions evident. 1H‐ and 31P‐NMR titrations in a 10 % D2O−DMSO‐D6 mixture suggest that with dihydrogenphosphate, the imidazole group is able to act as both a proton acceptor and donor. It appears that all four complexes can form a {[complex]2‐H2PO4} "dimer", a one‐to‐one species (which the X‐ray crystallography study suggests is dimeric in the solid‐state), and a complex with a combined bis(dihydrogenphosphate) complex anion. The speciation relies on complex equilibria dependent on several factors including the complex charge, the hydrophobicity of the associated ligands, and the solvent. [ABSTRACT FROM AUTHOR]

Published

2024

29. Aldoximes enable proton-relayed NMR hyperpolarisation.

Author

Leydman, Naomi E. and Norcott, Philip L.

Subjects

*OXIMES, *IRIDIUM, *ALDOXIMES, *PROTONS, *GEOMETRY

Abstract

NMR signals can be greatly enhanced, or hyperpolarised, by interactions with para-hydrogen. We demonstrate here that oximes can be reversibly hyperpolarised by coordination to an iridium complex, that oxime E/Z geometry is significant for activity, and that hyperpolarised oximes can subsequently transfer these enhanced signals through proton exchange. [ABSTRACT FROM AUTHOR]

Published

2024

30. Nickel/Photoredox Dual Catalytic Chan‐Lam Coupling of Aryl Azides and Arylboric Acids.

Author

Ge, Xia, Ji, Haojie, and Lu, Hongjian

Subjects

*COUPLING agents (Chemistry), *DRUG synthesis, *CHARGE exchange, *ORGANIC synthesis, *FUNCTIONAL groups

Abstract

Comprehensive Summary: Unsymmetrical diarylamines are crucial components in many pharmaceuticals and functional materials. In this study, we introduce an efficient Chan‐Lam cross‐coupling method that utilizes phenylboronic acids and aryl azides as coupling agents in a redox‐neutral environment, enabled by a synergistic nickel/photoredox catalytic system. This approach leverages a proton‐coupled electron transfer mechanism to bypass the typical nitrene pathway associated with aryl azides, which is prone to intramolecular rearrangement, C—H amination, and reductive hydrogenation. Notably, our method exhibits broad compatibility with a variety of functional groups, including those derived from pharmaceuticals, demonstrating its versatile potential in organic synthesis and drug modification. [ABSTRACT FROM AUTHOR]

Published

2024

31. Crystal structures of the (η²:η²-cyclo­octa-1,5-diene)(η6-toluene)iridium(I) cation and μ-chlorido-iridium(III) complexes of 2-(phosphinito)- and 2-(phosphinomethyl)anthraquinone ligands.

Author

Thackeray, Sachin, Mahoney, James, Arrington, Ashleigh, Wilklow-Marnell, Miles, and Brennessel, William W.

Subjects

SPACE groups, CARBON monoxide, LIGANDS (Chemistry), CRYSTAL structure, IRIDIUM

Abstract

When reacted in dry, degassed toluene, [Ir(COD)Cl]2 (COD = cyclo­octa-1,5-diene) and 2 equivalents of 2-(di-tert-butyl­phosphinito)anthra­quinone (tBuPOAQH) were found to form a unique tri-iridium compound consisting of one monoanionic dinuclear tri-μ-chlorido complex bearing one bidentate tBuPOAQ ligand per iridium, which was charge-balanced by an outer sphere [Ir(toluene)(COD)]+ ion, the structure of which has not previously been reported. This product, which is a toluene solvate, namely, (η²:η²-cyclo­octa-1,5-diene)(η6-toluene)­iridium(I) tri-μ-chlorido-bis­({3-[(di-tert-butyl­phosphan­yl)­oxy]-9,10-dioxoanthracen-2-yl}hydridoiridium(III)) toluene monosolvate, [Ir(C7H8)(C8H12)][Ir2H2(C22H24O3P)2Cl3]·C7H8 or [Ir(toluene)(COD)][Ir(κ-P,C-tBuPOAQ)(H)]2(μ-Cl)3]·toluene, formed as small orange platelets at room temperature, crystallizing in the triclinic space group P[\overline{1}]. The cation and anion are linked via weak C--H⋯O inter­actions. The stronger inter­molecular attractions are likely the offset parallel π-π inter­actions, which occur between the toluene ligands of pairs of inverted cations and between pairs of inverted anthra­quinone moieties, the latter of which are capped by toluene solvate mol­ecules, making for π-stacks of four mol­ecules each. The related ligand, 2-(di-tert-butyl­phosphinometh­yl)-anthra­quinone (tBuPCAQH), did not form crystals suitable for X-ray diffraction under analogous reaction conditions. However, when the reaction was conducted in chloro­form, yellow needles readily formed following addition of 1 atm of carbon monoxide. Diffraction studies revealed a neutral, dinuclear, di-μ-chlorido complex, di-μ-chlorido-bis­(carbon­yl{3-[(di-tert-butyl­phosphan­yl)­oxy]-9,10-dioxoanthracen-2-yl}hydridoiridium(I)), [Ir2H2(C23H26O2P)2Cl2(CO)2] or [Ir(κ-P,C-tBuPCAQ)(H)(CO)(μ-Cl)]2, Ir2C48H54Cl2O6P2, again crystallizing in space group P[\overline{1}]. Offset parallel π-π inter­actions between anthra­quinone groups of adjacent mol­ecules link the mol­ecules in one dimension. [ABSTRACT FROM AUTHOR]

Published

2024

32. A Dual‐Purpose Non‐Canonical Amino Acid for the Expanded Genetic Code: Combining Metal‐Binding and Click Chemistry.

Author

Day, Graham J., Zaytsev, Andrey V., Brewster, Richard C., Kozhevnikov, Valery N., and Jarvis, Amanda G.

Abstract

A rationally designed dual‐purpose non‐canonical amino acid (Trz) has been synthesised and successfully incorporated into a protein scaffold by genetic code expansion. Trz contains a 5‐pyridyl‐1,2,4‐triazine system, which allows for inverse‐electron‐demand Diels–Alder (IEDDA) reactions to occur on the triazine ring and for metal ions to be chelated both before and after the click reaction. Trz was successfully incorporated into a protein scaffold and the IEDDA utility of Trz demonstrated through the site‐specific labelling of the purified protein with a bicyclononyne. Additionally, Trz was shown to successfully coordinate a cyclometallated iridium(III) centre, providing access to a bioorthogonal luminogenic probe. The luminescent properties of the Ir(III)‐bound protein blue‐shift upon IEDDA click reaction with bicyclononyne, providing a unique method for monitoring the extent and location of the labelling reaction. In summary, Trz is a new dual‐purpose non‐canonical amino acid with great potential for myriad bioapplications where metal‐based functionality is required, for example in imaging, catalysis, and photo‐dynamic therapy, in conjunction with a bioorthogonal reactive handle to impart additional functionalities, such as dual‐modality imaging or therapeutic payloads. [ABSTRACT FROM AUTHOR]

Published

2024

33. Ultrahigh Electrode Performance of Low‐Loaded Iridium Jagged Nanotubes for Water Electrolysis Applications.

Author

Kim, Jun, Kwon, Taehyun, Lee, Jaeseung, Lee, Hyun Ju, Jun, Minki, Ham, Hyung Chul, Ju, Hyunchul, Kim, Sangwon, and Kim, Jin Young

Subjects

*ELECTRODE performance, *OXYGEN evolution reactions, *WATER electrolysis, *CATALYTIC activity, *SURFACE texture

Abstract

Highly active Ir electrocatalysts based on ultralow loading for proton exchange membrane water electrolysis (PEMWE) applications are desirable to achieve gigawatt production levels. However, no clear direction has been developed yet to achieve that scale. Here, newly‐synthesized Ir‐based jagged nanotubes (J‐IrNTs) with the ultrahigh electrode performance of 10 A mgIr−1 at 1.6 V in a PEMWE cell at Ir loadings as low as 0.05 mgIr cm−2 are reported, outperforming previously reported Ir‐based electrocatalysts. The Ir‐JrNT also exhibits only marginal degradation in stability tests. Notably, the resulting electrode of Ir‐JrNT provides enhanced intrinsic catalytic activity and high surface area for efficient electrocatalysis, with hierarchical branching composed of interconnected multiscale channels and highly corrugated surface textures, for facile mass transport. The findings demonstrate that the jagged nanotubular structure is a promising approach for overcoming the limitations associated with Ir‐based electrocatalysts and developing sustainable advanced PEMWE. [ABSTRACT FROM AUTHOR]

Published

2024

34. Stereoisomeric Homo‐ and Hetero‐Binuclear Iridium(III) Complexes with 3‐Oxidopicolinate Bridging Ligand and Their Application in OLEDs.

Author

Bejoymohandas, Kochan Sathyaseelan, Baschieri, Andrea, Reginato, Francesco, Toffanin, Stefano, Prosa, Mario, Bandini, Elisa, Mazzanti, Andrea, and Monti, Filippo

Subjects

*BRIDGING ligands, *ENERGY levels (Quantum mechanics), *LIGANDS (Chemistry), *IRIDIUM, *ORGANIC light emitting diodes

Abstract

The small and simple 3‐hydroxypyridine‐2‐carboxylic acid (Hpic‐OH) is explored as asymmetric bridging ligand for the synthesis of neutral binuclear cyclometalated iridium(III) complexes. Once fully deprotonated the picO2– ligand can act as ancillary ligand toward two iridium centers adopting both the N^O– and O^O– chelation modes. To tune the energy of the excited states within such binuclear complexes, the 2‐(2,4‐difluorophenyl)pyridine (Hdfppy) and the 2‐phenylbenzothiazole (Hpbtz) are used as cyclometalating ligands to respectively obtain both blue‐ or orange‐emissive homo‐cyclometalated complexes (BB and YY, with formula [Ir(dfppy)2]2(picO) and [Ir(pbtz)2]2(picO), respectively). Moreover, for the first time, short‐bridged hetero‐cyclometalated binuclear complexes are also obtained (BY and YB, with formula [Ir(dfppy)2](picO)[Ir(pbtz)2] and [Ir(pbtz)2](picO)[Ir(dfppy)2]). Depending on the reciprocal arrangement of the cyclometalating ligands on the two sides of the small picolinate bridge, two couples of diastereoisomers are obtained and efficiently separated, as proved by combined NMR and DFT studies. The reported binuclear complexes are highly emissive with photoluminescence quantum yields (PLQYs) up to 67%, which are comparable to those of their mononuclear analogues (B and Y). Due to the full reversibility of their redox processes, all the complexes are also tested in solution‐processed organic light‐emitting diodes, providing unique OLEDs based on hetero‐binuclear cyclometalated iridium(III) complexes. [ABSTRACT FROM AUTHOR]

Published

2024

35. 2-Phenylbenzothiazolyl iridium complexes as inhibitors and probes of amyloid β aggregation.

Author

Terpstra, Karna, Huang, Yiran, Na, Hanah, Liang Sun, Gutierrez, Citlali, Zhengxin Yu, and Mirica, Liviu M.

Subjects

*AMYLOID, *IRIDIUM, *ALZHEIMER'S disease, *AMYLOID plaque, *AMYLOID beta-protein

Abstract

The aggregation of amyloid β (Aβ) peptides is a significant hallmark of Alzheimer's disease (AD), and the detection of Aβ aggregates and the inhibition of their formation are important for the diagnosis and treatment of AD, respectively. Herein, we report a series of benzothiazole-based Ir(III) complexes HN-1 to HN-8 that exhibit appreciable inhibition of Aβ aggregation in vitro and in living cells. These Ir(III) complexes can induce a significant fluorescence increase when binding to Aβ fibrils and Aβ oligomers, while their measured log D values suggest these compounds could have enhanced blood--brain barrier (BBB) permeability. In vivo studies show that HN-1, HN-2, HN-3, and HN-8 successfully penetrate the BBB and stain the amyloid plaques in AD mouse brains after a 10-day treatment, suggesting that these Ir(III) complexes could act as lead compounds for AD therapeutic and diagnostic agent development. [ABSTRACT FROM AUTHOR]

Published

2024

36. Ultrafast Near‐Infrared Luminescence from Cyclometalated Iridium(III) Complexes with Indirubin as Ancillary Ligand.

Author

Sathyaseelan Bejoymohandas, Kochan, Ventura, Barbara, Baschieri, Andrea, Mazzanti, Andrea, Bandini, Elisa, and Monti, Filippo

Subjects

*INDIGO, *LIGANDS (Chemistry), *METAL complexes, *IRIDIUM, *ACETONITRILE

Abstract

Being a constitutional isomer of the indigo dye, indirubin has been known as a purple colourant for a long time. On the other hand, its structural and photophysical properties as ligand in metal complexes are virtually unexplored. Herein, for the first time, we utilized indirubin as ancillary chelator to develop two new heteroleptic iridium(III) complexes equipped with two 2‐phenylpyridine units as archetypical cyclometalating ligands. These new complexes display fully reversible oxidation and reduction processes, and show a panchromatic absorption extending up to 900 nm in acetonitrile solution at 298 K. Moreover, an unexpected broad and unstructured emission band is detected for both complexes in the near‐infrared region, peaking at approx. 1100 nm and having a lifetime of approx. 60 ps; such an emission is attributed to a ligand‐centred triplet excited state (3LC) located on the indirubin ligand itself, as proved by DFT calculations. These findings may pave the way for further exploration of the indirubin dye as a ligand for different types of metal centres to create efficient near‐infrared triplet emitters without the need for difficult synthetic procedures. [ABSTRACT FROM AUTHOR]

Published

2024

37. Skeletal and Mechanistic Diversity in Ir‐Catalyzed Cycloisomerizations of Allene‐Tethered Pyrroles and Indoles.

Author

Arribas, Andrés, Calvelo, Martín, Rey, Alejandro, Mascareñas, José L., and López, Fernando

Subjects

*PYRROLES, *INDOLE compounds, *CYCLOISOMERIZATION, *CARBOLINES, *ALLENE

Abstract

Pyrroles and indoles bearing N‐allenyl tethers participate in a variety of iridium‐catalyzed cycloisomerization processes initiated by a C−H activation step, to deliver a diversity of synthetically relevant azaheterocyclic products. By appropriate selection of the ancillary ligand and the substitution pattern of the allene, the reactions can diverge from simple intramolecular hydrocarbonations to tandem processes involving intriguing mechanistic issues. Accordingly, a wide range of heterocyclic structures ranging from dihydro‐indolizines and pyridoindoles to tetrahydroindolizines, as well as cyclopropane‐fused tetrahydroindolizines can be obtained. Moreover, by using chiral ligands, these cascade processes can be carried out in an enantioselective manner. DFT studies provide insights into the underlying mechanisms and justify the observed chemo‐ regio‐ and stereoselectivities. [ABSTRACT FROM AUTHOR]

Published

2024

38. Photoinduced Group Transposition via Iridium‐Nitrenoid Leading to Amidative Inner‐Sphere Aryl Migration.

Author

Jung, Hoimin, Choi, Jungkweon, Kim, Daniel, Lee, Jeong Hoon, Ihee, Hyotcherl, Kim, Dongwook, and Chang, Sukbok

Subjects

*DENSITY functional theory, *CHARGE transfer

Abstract

We herein report a fundamental mechanistic investigation into photochemical metal‐nitrenoid generation and inner‐sphere transposition reactivity using organometallic photoprecursors. By designing Cp*Ir(hydroxamate)(Ar) complexes, we induced photo‐initiated ligand activation, allowing us to explore the amidative σ(Ir–aryl) migration reactivity. A combination of experimental mechanistic studies, femtosecond transient absorption spectroscopy, and density functional theory (DFT) calculations revealed that the metal‐to‐ligand charge transfer enables the σ(N−O) cleavage, followed by Ir‐acylnitrenoid generation. The final inner‐sphere σ(Ir–aryl) group migration results in a net amidative group transposition. [ABSTRACT FROM AUTHOR]

Published

2024

39. Chemoselective and Stereoselective Allylation of Bis(alkenyl)boronates.

Author

Tran, Minh‐Khoa and Ready, Joseph M.

Subjects

*ALLYLATION, *BORONIC esters, *ALKENES

Abstract

Bis(alkenyl)boronates react with optically active Ir(π‐allyl) species in a process that involves allylation of the more substituted olefin and 1,2‐metalate shift of the less substituted olefin. The method constructs valuable enantioenriched tertiary allylic boronic esters with high chemoselectivity, enantioselectivity and diastereoselectivity. Allylic functionalization reactions transform the 1,3‐stereodiad to 1,5‐ and 1,6‐stereochemical relationships. [ABSTRACT FROM AUTHOR]

Published

2024

40. Benzothiazole-Directed Enantioselective Borylation of Secondary Benzylic C–H Bonds Using Iridium Catalysis.

Author

Xie, Liang-Jun, Chen, Lili, and Xu, Senmiao

Subjects

*BORYLATION, *IRIDIUM, *CATALYSIS, *BENZOTHIAZOLE

Abstract

Reported here is the iridium-catalyzed regio- and enantio-selective secondary benzylic C–H borylation using benzothiazole as the directing group. Various monosubstituted 2-arylalkylbenzo[ d ]thiazole were well-tolerated, affording the corresponding products in moderate to good yields with good enantioselectivity. The C–B bond in one boryl-ated product could undergo stereospecific transformations to form a series of C–C and C–heteroatom bonds. [ABSTRACT FROM AUTHOR]

Published

2024

41. Antibacterial activity of Au(I), Pt(II), and Ir(III) biotin conjugates prepared by the iClick reaction: influence of the metal coordination sphere on the biological activity.

Author

Moreth, Dominik, Stevens-Cullinane, Lars, Rees, Thomas W., Müller, Victoria V. L., Pasquier, Adrien, Song, Ok-Ryul, Warchal, Scott, Howell, Michael, Hess, Jeannine, and Schatzschneider, Ulrich

Subjects

*ISOTHERMAL titration calorimetry, *TRANSITION metal complexes, *ENTEROCOCCUS faecium, *ANTIBACTERIAL agents, *CYTOTOXINS, *PLATINUM, *BENZENE derivatives

Abstract

A series of biotin-functionalized transition metal complexes was prepared by iClick reaction from the corresponding azido complexes with a novel alkyne-functionalized biotin derivative ([Au(triazolatoR,R′)(PPh3)], [Pt(dpb)(triazolatoR,R′)], [Pt(triazolatoR,R′)(terpy)]PF6, and [Ir(ppy)(triazolatoR,R′)(terpy)]PF6 with dpb = 1,3-di(2-pyridyl)benzene, ppy = 2-phenylpyridine, and terpy = 2,2′:6′,2′′-terpyridine and R = C6H5, R′ = biotin). The complexes were compared to reference compounds lacking the biotin moiety. The binding affinity toward avidin and streptavidin was evaluated with the HABA assay as well as isothermal titration calorimetry (ITC). All compounds exhibit the same binding stoichiometry of complex-to-avidin of 4:1, but the ITC results show that the octahedral Ir(III) compound exhibits a higher binding affinity than the square-planar Pt(II) complex. The antibacterial activity of the compounds was evaluated on a series of Gram-negative and Gram-positive bacterial strains. In particular, the neutral Au(I) and Pt(II) complexes showed significant antibacterial activity against Staphylococcus aureus and Enterococcus faecium at very low micromolar concentrations. The cytotoxicity against a range of eukaryotic cell lines was studied and revealed that the octahedral Ir(III) complex was non-toxic, while the square-planar Pt(II) and linear Au(I) complexes displayed non-selective micromolar activity. [ABSTRACT FROM AUTHOR]

Published

2024

42. BODIPY‐based iridium and ruthenium complexes: Synthesis, photophysical, and photochemical properties.

Author

Cabir, Beyza and Cetindere, Seda

Subjects

*REACTIVE oxygen species, *EMISSION spectroscopy, *PHOTODYNAMIC therapy, *RUTHENIUM compounds, *IRIDIUM

Abstract

The design, synthesis, and characterization of novel BODPY‐based iridium and ruthenium complexes were reported. The structures of new compounds were fully characterized by FT‐IR, MALDI‐TOF mass analysis, elemental analysis, 1H, and 19F NMR spectroscopies. Precursor BODIPY was characterized by single‐crystal x‐ray diffraction technique for the first time. Photophysical properties including absorption and emission profiles and lifetimes were investigated via UV–vis absorption and emission spectroscopy. Photochemical properties were investigated via direct method, and the singlet oxygen production capabilities of new complexes were determined by NIR phosphorescence methods. BODIPY‐based new complexes were efficient at producing 1O2. Besides, both complexes showed more remarkable photosensitization ability than some commonly used photosensitizer based on BODIPY derivatives. This study points out that novel complexes are effective 1O2 photosensitizers that might be used for different application areas like photodynamic therapy. [ABSTRACT FROM AUTHOR]

Published

2024

43. Crystal structures of the (η2:η2-cycloocta-1,5-diene)(η6-toluene)iridium(I) cation and μ-chlorido-iridium(III) complexes of 2-(phosphinito)- and 2-(phosphinomethyl)anthraquinone ligands

Author

Sachin Thackeray, James Mahoney, Ashleigh Arrington, Miles Wilklow-Marnell, and William W. Brennessel

Subjects

crystal structure, pincer ligands, phosphine ligands, iridium, quinone, chlorido-bridged, hydrido complex, metallacycle, Crystallography, QD901-999

Abstract

When reacted in dry, degassed toluene, [Ir(COD)Cl]2 (COD = cycloocta-1,5-diene) and 2 equivalents of 2-(di-tert-butylphosphinito)anthraquinone (tBuPOAQH) were found to form a unique tri-iridium compound consisting of one monoanionic dinuclear tri-μ-chlorido complex bearing one bidentate tBuPOAQ ligand per iridium, which was charge-balanced by an outer sphere [Ir(toluene)(COD)]+ ion, the structure of which has not previously been reported. This product, which is a toluene solvate, namely, (η2:η2-cycloocta-1,5-diene)(η6-toluene)iridium(I) tri-μ-chlorido-bis({3-[(di-tert-butylphosphanyl)oxy]-9,10-dioxoanthracen-2-yl}hydridoiridium(III)) toluene monosolvate, [Ir(C7H8)(C8H12)][Ir2H2(C22H24O3P)2Cl3]·C7H8 or [Ir(toluene)(COD)][Ir(κ-P,C-tBuPOAQ)(H)]2(μ-Cl)3]·toluene, formed as small orange platelets at room temperature, crystallizing in the triclinic space group P\overline{1}. The cation and anion are linked via weak C—H...O interactions. The stronger intermolecular attractions are likely the offset parallel π–π interactions, which occur between the toluene ligands of pairs of inverted cations and between pairs of inverted anthraquinone moieties, the latter of which are capped by toluene solvate molecules, making for π-stacks of four molecules each. The related ligand, 2-(di-tert-butylphosphinomethyl)-anthraquinone (tBuPCAQH), did not form crystals suitable for X-ray diffraction under analogous reaction conditions. However, when the reaction was conducted in chloroform, yellow needles readily formed following addition of 1 atm of carbon monoxide. Diffraction studies revealed a neutral, dinuclear, di-μ-chlorido complex, di-μ-chlorido-bis(carbonyl{3-[(di-tert-butylphosphanyl)oxy]-9,10-dioxoanthracen-2-yl}hydridoiridium(I)), [Ir2H2(C23H26O2P)2Cl2(CO)2] or [Ir(κ-P,C-tBuPCAQ)(H)(CO)(μ-Cl)]2, Ir2C48H54Cl2O6P2, again crystallizing in space group P\overline{1}. Offset parallel π–π interactions between anthraquinone groups of adjacent molecules link the molecules in one dimension.

Published

2024

44. The generation of sulfate species on Ir-based catalysts for boosting NO reduction with CO under the coexistence of O2 and SO2 atmosphere.

Author

Wang, Junyi, Gao, Aifang, Gao, Fengyu, Yi, Lei, Yao, Yuan, Yi, Honghong, Zhou, Yuansong, Duan, Erhong, and Tang, Xiaolong

Subjects

*CATALYTIC reduction, *HYDROXYL group, *CARBON dioxide, *IRIDIUM, *SULFATES, *CATALYST poisoning

Abstract

[Display omitted] • NO x conversion and N 2 selectivity are significantly enhanced in the presence of SO 2. • The decrease in CO oxidation ability is the main reason for the improvement in NO reduction performance. • L-H reaction pathways for CO oxidation are inhibited by the formation of sulfate species. • The promotional mechanism of SO 2 on CO-SCR reaction over Ir-based catalysts is proposed. Generally, sulfur poisoning is considered to be one of the main factors contributing to the deactivation of selective catalytic reduction of NO x by CO (CO-SCR) catalysts, while the promotional effect of SO 2 on NO reduction over Ir/SiO 2 is observed which is an interesting scientific phenomenon. After the introduction of 20 ppm SO 2 , NO x conversion increased from ∼ 40 % to ∼ 90 % at 275 °C, and N 2 selectivity increased from ∼ 80 % to 100 % at 200 ∼ 300 °C. Furthermore, the promoting effect could remain unchanged after 24 h of continuous reaction. However, the temperature point for achieving complete conversion of CO increased from 225 °C to 275 °C after the introduction of SO 2. Experimental characterization and theoretical calculation jointly proved that the inhibition of CO oxidation by the generation of sulfate was the main reason for promoting NO reduction. Under the coexistence of O 2 and SO 2 , SO 2 was firstly oxidized to SO 3 on the iridium surface and generated sulfate species on surface hydroxyl groups of SiO 2. Some active sites for O 2 adsorption were covered by the generated surface sulfate, and adsorbed CO was hard to react with adsorbed O 2 , resulting in Langmuir–Hinshelwood (L-H) reaction pathways for CO oxidation being inhibited. Therefore, unoxidized CO reacted with NO adsorbed species and generated N 2 O to generate N 2 and CO 2 , improving NO reduction. This new insight has implications for understanding the promotional effect of SO 2 on NO reduction with CO in the presence of O 2. [ABSTRACT FROM AUTHOR]

Published

2024

45. Iridium-Catalyzed asymmetric reduction of α,β-Unsaturated nitriles with water

Author

Qinli Lu, Xianming Wang, Wanliu Wen, Ruifeng Fan, Binfeng Zhu, Bingjie Zhou, Jingchao Chen, and Baomin Fan

Subjects

Asymmetric reduction, Unsaturated nitriles, Water, Propionitrile, Iridium, DIBAL-H, Chemical technology, TP1-1185, Biochemistry, QD415-436

Abstract

The nitrile compounds are present in a variety of biologically active natural products and pharmaceuticals, and the nitrile groups are versatile synthetic intermediates to other functionalized compounds. Herein, the asymmetric reduction of α, β-unsaturated nitriles with water as a hydrogen source is reported. The reaction is catalyzed by the complex of [Ir(COD)Cl]2 and (Ra, S)-Ph-Bn-SiPhox, and allows the preparation of useful enantioenriched chiral 3,3-disubstituted propionitriles with high optical purities in mild conditions.

Published

2024

46. Saturated Red Electrophosphorescence From Novel Pyridinopyridazine‐Based Iridium Complexes.

Author

Xiao‐Yu, Zhang, Zheng‐Ze, Li, Jia‐Hui, Xu, Ren, Sheng, Bi‐Hai, Tong, Ping, Chen, and Hui, Kong

Subjects

*HYDROGEN bonding interactions, *QUANTUM efficiency, *IRIDIUM, *ABSORPTION spectra, *PHOTOLUMINESCENCE, *PHOSPHORESCENCE

Abstract

ABSTRACT Two isomeric homoleptic Ir(III) complexes with pyridinopyridazine derivative ligands were prepared first. Due to its stronger intramolecular hydrogen bonding and intermolecular interactions, complex IrPPM has a higher decomposition temperature (5% weight loss) of 387°C than IrPPP (354°C). They have similar UV–Vis absorption and photoluminescence spectra in CH2Cl2 solution with photoluminescence peaks around 635–636 nm. However, the emission peak of IrPPM in neat powder obviously red‐shifted to 652 nm, and that of IrPPP blue‐shifted to 626 nm. Simultaneously, complex IrPPM has a lower photoluminescence quantum yield of 0.3 than IrPPP (0.5). Efficient saturated red OLED devices are developed with Commission Internationale de L'Eclairage color coordinates of (0.67, 0.32) and (0.66, 0.32), respectively. The maximum external quantum efficiencies of both devices exceed 11%. These results demonstrate the great potential of pyridinopyridazine derivatives for developing new iridium complexes for OLED applications. [ABSTRACT FROM AUTHOR]

Published

2024

47. Alkali Metal Iridates as Oxygen Evolution Catalysts Via Thermal Transformation of Amorphous Iridium (oxy)hydroxides.

Author

Falsaperna, Mario, Arrigo, Rosa, Marken, Frank, and Freakley, Simon J.

Subjects

*IRIDIUM oxide, *OXYGEN evolution reactions, *HYDROTHERMAL synthesis, *IRIDIUM, *CRYSTAL structure

Abstract

Efficient water‐splitting is severely limited by the anodic oxygen evolution reaction (OER). Iridium oxides remain one of the only viable catalysts under acidic conditions due to their corrosion resistance. We have previously shown that heat‐treating high‐activity amorphous iridium oxyhydroxide in the presence of residual lithium carbonate leads to the formation of lithium‐layered iridium oxide, suppressing the formation of low‐activity crystalline rutile IrO2. We now report the synthesis of Na‐IrOx and K‐IrOx featuring similarly layered crystalline structures. Electrocatalytic tests confirm Li‐IrOx retains similar electrocatalytic activity to commercial amorphous IrO2 ⋅ 2H2O and with increasing size of the intercalated cation, the activity towards the OER decreases. However, the synthesised electrocatalysts that contain layers show greater stability than crystalline rutile IrO2 and amorphous IrO2 ⋅ 2H2O, suggesting these compounds could be viable alternatives for industrial PEM electrolysers where durability is a key performance measure. [ABSTRACT FROM AUTHOR]

Published

2024

48. Simulation of the Formation of Ir Nanowires on the Ge(001) Surface.

Author

Syromyatnikov, A. G., Saletsky, A. M., and Klavsyuk, A. L.

Subjects

*MONTE Carlo method, *DENSITY functional theory, *IRIDIUM, *ADATOMS, *DIMERS, *NANOWIRES

Abstract

The formation of iridium nanowires on the Ge(001) surface has been studied for the first time using the density functional theory and the kinetic Monte Carlo method. It has been found that iridium adatoms are immersed in the surface layer, where they diffuse. The main diffusion events that determine the formation of atomic wires and their shape have been identified. The anisotropy of iridium atom diffusion in the Ge(001) surface layer has been detected. It has been found that the repulsion between the iridium atom and the iridium dimer leads to the formation of nanowires consisting of dimers separated by one atomic row. The results obtained are in good agreement with experimental data. [ABSTRACT FROM AUTHOR]

Published

2024

49. Asymmetric Hydrogenation of Ketones by Simple Alkane-Diyl-Based Ir(P,N,O) Catalysts: A Comparative Study.

Author

Császár, Zsófia, Guóth, Mária, Kovács, Margit, Bényei, Attila C., Bakos, József, and Farkas, Gergely

Subjects

*MODULAR construction, *LIGANDS (Biochemistry), *LIGANDS (Chemistry), *BIOCHEMICAL substrates, *CATALYTIC activity, *HYDROGENATION, *TRANSITION metal catalysts

Abstract

The development of new chiral ligands with simple and modular structure represents a challenging direction in the design of efficient homogeneous transition metal catalysts. Herein, we report on the asymmetric hydrogenation of prochiral ketones catalyzed by the iridium complexes of simple alkane-diyl-based P,N,O-type chiral ligands with a highly modular structure. The role of (i) the P-N and N-O backbone in the potentially tridentate ligands, (ii) the number, position and relative configuration of their stereogenic elements and (iii) the effect of their NH and OH subunits on the activity and enantioselectivity of the catalytic reactions are studied. The systematic variation in the ligand structure and the comparative catalytic experiments shed light on different mechanistic aspects of the iridium-catalyzed reaction. The catalysts containing the simple alkane-diyl-based ligands with central chirality provided high enantioselectivities (up to 98% ee) under optimized reaction conditions and proved to be active and selective even at very high substrate concentrations (100 mmol substrate/mL solvent). [ABSTRACT FROM AUTHOR]

Published

2024

50. High‐Efficiency and Long‐Lifetime Near‐Infrared OLEDs Based on Iridium Complexes with Enhanced Horizontal Emitting Dipole Orientation.

Author

Zhang, Yanxin, Li, Shaman, Xu, Jingyi, Dai, Yu, and Qiao, Juan

Subjects

*ORGANIC light emitting diodes, *LIGHT emitting diodes, *IRIDIUM, *QUANTUM efficiency, *PYRAZINES, *RADIANCE

Abstract

High‐efficiency and long‐lifetime near‐infrared (NIR) organic light‐emitting diodes (OLEDs) are rarely reported. Herein, three efficient NIR Ir(III) complexes 1–3 are developed with specially designed cyclometallated ligands based on pyrido[3,4‐b]pyrazine and oriented substitutions along the Ir─N bond axis. Electron‐deficient pyrazine ring effectively stabilizes LUMO energy, leading to significant emission bathochromic shift. Importantly, for complexes 2 and 3, oriented substitutions along the direction of the Ir─N bond axis considerably enhance the horizontal emitting dipole orientation ratio up to 90%. Their OLEDs demonstrate high maximum external quantum efficiencies (EQEs), negligible efficiency roll‐offs, superior radiance, and long lifetimes. The maximum EQEs and radiances of devices are 9.84% and 158 W Sr−1 m−2 at 725 nm for 1, 6.98% and 14.03 W Sr−1 m−2 at 760 nm for 2, and 12.49% and 18.94 W Sr−1 m−2 at 735 nm for 3, respectively. The device lifetime LT97 at 10 mA cm−2 is 453 h for complex 2, which sets a champion lifetime for NIR‐OLEDs. This work demonstrates that pyrido[3,4‐b]pyrazine is a desired building block for robust NIR emitting Ir(III) complexes, providing a superior paradigm to combine high efficiency, negligible roll‐off, and long device lifetime simultaneously toward practical applications. [ABSTRACT FROM AUTHOR]

Published

2024