Your search keyword '"Churchill, David G"' showing total 479 results

451. Theoretical model study of adsorbed antimalarial-graphene dimers: doping effects, photophysical parameters, intermolecular interactions, edge adsorption, and SERS.

Author

Ullah Z, Sonawane PM, Mary YS, Mary YS, Mane P, Chakraborty B, and Churchill DG

Subjects

Adsorption, Carbon, Models, Theoretical, Graphite chemistry, Antimalarials

Abstract

Future diagnostics and therapy applications are in part riding on the discovery and implementation of new optical techniques and strategies (which often derive from dyads) for example, prediction of features in surface-enhanced Raman spectroscopy requires the study of chromophore-chromophore interactions involve intermolecular forces, drug delivery, and photo mechanisms which are of great interest. New matches between chromophore systems (i.e. FRET), and π-delocalized surfaces are important to study. We explore low-molecular weight drug molecules and their interaction with the reporter material/surface of graphene. Bonding, charge transfer and orbital interactions for 2-amino-5-(1-methyl-5-nitro-2-imidazolyl)-1,3,4-thiadiazole ( megazol or AMIT ) on graphene were carried out. The graphene model substrate was monotonically/monatomically substituted (doped) with one neutral heteroatom (N/O/S/B) in place of one carbon center; chemical adsorption of AMIT is due to charge transfer from doped graphene to AMIT (DFT). Our AMIT -nanocluster studies show that the nanoclusters will act as a sensor component for the detection of drugs due to SERS. Our findings identified that the greater the energy of the charge transfer, the stronger the calculated chemical adsorption. Additionally, charge transfer is highest for the N-doped systems and least for pristine graphene, resulting in a stronger adsorption energy for N - doped graphene . Mulliken charge analysis of structures confirms enhancement found in QD - AMIT systems.Communicated by Ramaswamy H. Sarma.

Published

2022

452. Solvent Effects on the Phosphorescence of Gold(III) Complexes Chelated by β-Multisubstituted Corroles.

Author

Zhan X, Lee W, Sudhakar K, Kim D, Mahammed A, Churchill DG, and Gross Z

Abstract

A set of gold corrole complexes containing four different β-substituent groups (Br/I/CF 3 ), namely, 4Br-Au , 4I-Au , and 4CF 3 -Au , were investigated; all showed room temperature phosphorescence. The phosphorescence quantum yields of the corroles were determined using tetraphenylporphyrin as a reference: Φ ph ( 4I-Au , 0.75%) > Φ ph ( 4Br-Au , 0.64%) > Φ ph ( 4CF 3 -Au , 0.38%). 4CF 3 -Au exhibited near-IR emission (858 nm, aerobic); absorbance intensity for the Q-band was higher than that for the Soret band. Complex 4I-Au showed a longer phosphorescence lifetime (82 μs) compared to those of 4Br-Au (53 μs) and 4CF 3 -Au (28 μs; N 2 , tol). Thermally activated delayed fluorescence (TADF) emission of 4I/Br-Au complexes was observed: stronger emission intensity correlated with increasing temperature. Good negative correlations for 4I/Br-Au were observed between the Soret band absorption energy and the solvent polarizability: excited states of 4I/Br-Au are more polar than their ground states. TD-DFT calculations revealed very fast intersystem crossing (ISC) rate constants, 2.20 × 10 12 s -1 ( 4CF 3 -Au ) > 1.96 × 10 11 s -1 ( 4Br-Au ) > 1.15 × 10 11 s -1 ( 4I-Au ), and importantly, the reverse intersystem crossing (rISC) rate constants are determined as 1.68 × 10 7 s -1 ( 4I-Au ) > 2.40 × 10 3 s -1 ( 4Br-Au ) ≫ 8.09 × 10 -8 s -1 ( 4CF 3 -Au ). The exceptionally low rISC rate constant of 4CF 3 -Au is attributed to its more steric and deformed structure bearing a larger energy gap between the S 1 and T 1 states.

Published

2021

453. Adapting educational experiences for the chemists of tomorrow.

Author

Fanguy M, Lee SY, and Churchill DG

Abstract

Technical universities are constantly experimenting with innovative student-centred classroom approaches. We describe flipped and linked classroom approaches in the context of our ongoing chemical education theme of catalysis., Competing Interests: Competing interestsThe authors declare no competing interests., (© Springer Nature Limited 2021.)

Published

2021

454. Didactic approach recounting advances and limitations in novel glutathione and cysteine detection (reduced GSH probe) with mixed coumarin, aldehyde, and phenyl-selenium chemistry.

Author

Lee W, Mulay SV, Shimodaira S, Abdillah A, Palma J, Kim Y, Yudhistira T, and Churchill DG

Subjects

Aldehydes, Animals, Coumarins, Cysteine, Fluorescent Dyes, Glutathione, HeLa Cells, Humans, Neurodegenerative Diseases, Selenium

Abstract

We describe the pertinent research steps and analysis, many of which are chemical, to achieve a novel molecular probe for glutathione (GSH) which has been published and patented based on two recent articles: "Exceptional time response, stability and selectivity in doubly-activated phenyl selenium-based glutathione-selective platform" and "Enhanced Doubly Activated Dual Emission Fluorescent Probes for Selective Imaging of Glutathione or Cysteine in Living Systems" (Kim et al., 2015; Mulay et al., 2018). The papers involve coumarin probes. Reaction/detection unfolds with aminothiol attack at an electrophilic ring carbon position. An adjacent -CHO group is heavily involved in resonance aspects of the C-Se position, as well as the binding of the pendant N-group; the coumarin lactone carbonyl also allows for resonance to be achieved (vide infra). The leaving group, -SePh, while precedented in some systems, depends on electronic tuning (Fig. 1). For 1, the response times with GSH was ~100ms; a 100-fold fluorescence increase is observed (Compound 1). The probe also reacts with cysteine (Cys) and homocysteine (Hcy), albeit differently. For glutathione probing, the greater wavelength maxima (1: 550nm, DACP-1: 555nm, DACP-2: 590nm) enabled eventual cell studies (confocal microscopy) and animal studies. The limits of detection (LOD, 1: 270nM DACP-1: 10.1nM DACP-2: 17.0nM), as measured using the 3σ/k method. We provide a didactic presentation from probe conception to probe in vivo testing, etc., with additional considerations presented; a variety of factors/issues (2.1-2.28) help maintain a realistic sequence, a flow from wider to narrower, of the factors that go into developing medical, biological and neurodegenerative disease-related probes, meant to help other researchers follow our intention, gain perspective, and overcome current limitations., Competing Interests: Disclosures None to report outside of patent No. KR 2017080415 on this related work., (© 2020 Elsevier Inc. All rights reserved.)

Published

2020

455. Positive shift in corrole redox potentials leveraged by modest β-CF 3 -substitution helps achieve efficient photocatalytic C-H bond functionalization by group 13 complexes.

Author

Zhan X, Yadav P, Diskin-Posner Y, Fridman N, Sundararajan M, Ullah Z, Chen QC, Shimon LJW, Mahammed A, Churchill DG, Baik MH, and Gross Z

Abstract

Tris- and tetrakis-β-trifluoromethylated gallium (3CF 3 -Ga, 4CF 3 -Ga) and aluminum (3CF 3 -Al, 4CF 3 -Al) corrole systems were synthesized by a facile "one-pot" approach from the respective tri- and tetra-iodo starting compounds using the FSO 2 CF 2 CO 2 Me reagent. The isolated 5,10,15-(tris-pentafluorophenyl)corrole-based compounds set the groundwork for another important β-substituent study in inorganic photocatalysis. As seen previously, -CF 3 group substitution leads to red shifts in both the absorption and emission spectra compared to their unsubstituted counterparts (X. Zhan, et al., Inorg. Chem., 2019, 58, 6184-6198). All CF 3 -substituted corrole complexes showed strong fluorescence; 3CF 3 -Al possessed the highest fluorescence quantum yield (0.71) among these compounds. The photocatalytic production of bromophenol by way of these photosensitizing complexes was studied demonstrating that tris-trifluoromethylation is an important substitution class, especially when Ga 3+ is present (experimental TON value in parentheses): 3CF 3 -Ga (192) > 4CF 3 -Ga (146) > 3CF 3 -Al (130) > 4CF 3 -Al (56) > 1-Ga (43) > 1-Al (18). The catalytic performance (turn-over number, TON) for benzylbromide formation (from toluene) was found to be: 3CF 3 -Ga (225) > 1-Ga (138) > 3CF 3 -Al (130) > 4CF 3 -Ga (126) > 1-Al (95) > 4CF 3 -Al (89); in these trials, benzaldehyde was also detected as a product in which 3CF 3 -Ga outperforms the other compounds (TON = 109). The tetra-CF 3 -substituted 4CF 3 -Ga and 4CF 3 -Al species exhibit a dramatic formal positive shift of 116 mV and 126 mV per [CF 3 ] group, respectively, compared to the unsubstituted parent species 1-Ga and 1-Al. However, the absorbance values (λ abs = 400 nm) of these corrole complexes (all equally concentrated: 4.0 × 10 -6 M) were 3CF 3 -Al (0.23) > 3CF 3 -Ga (0.22) > 1-Al (0.21) > 1-Ga (0.20) > 4CF 3 -Al (0.19) > 4CF 3 -Ga (0.15), which helps rationalize why 3CF 3 -Ga performs the best among these catalysts. These new photosensitizers were carefully characterized by 1 H and 19 F NMR spectroscopy to help verify the number and position (symmetry) of the CF 3 groups; 3CF 3 -Ga and 3I-Al were structurally characterized. Distortions in the corrole macrocycle imposed by the multiple β-substitution were quantified.

Published

2019

456. Maximizing Property Tuning of Phosphorus Corrole Photocatalysts through a Trifluoromethylation Approach.

Author

Zhan X, Teplitzky P, Diskin-Posner Y, Sundararajan M, Ullah Z, Chen QC, Shimon LJW, Saltsman I, Mahammed A, Kosa M, Baik MH, Churchill DG, and Gross Z

Abstract

An eight-member series of CF 3 -substituted difluorophosphorus corroles was prepared for establishing a structure-activity profile of these high-potential photosensitizers. It consisted of preparing all four possible isomers of the monosubstituted corrole and complexes with 2-, 3-, 4-, and 5-CF 3 groups on the macrocycle's periphery. The synthetic pathway to these CF 3 -substituted derivatives, beginning with (tpfc)PF 2 , involves two different initial routes: (i) direct electrophilic CF 3 incorporation using FSO 2 CF 2 CO 2 Me and copper iodide, or (ii) bromination to achieve the 2,3,8,17,18-pentabrominated compound using excess bromine in methanol. Crystallographic investigations revealed that distortion of the original planar macrocycle is evident even in the monosubstituted case and that it becomes truly severe for the penta-CF 3 -substituted derivative 5. There is a shift in redox potentials of about 193 mV per -CF 3 group, which decreases to only 120 mV for the fifth one in 5. Differences in the electronic spectra suggest that the Gouterman four orbital model decreases in relevance upon gradual -CF 3 substitution, a conclusion that was corroborated by DFT calculations. The very significant energy lowering of the frontier orbitals suggested that photoexcitation should lead to a highly oxidizing photocatalyst. This hypothesis was proven true by finding that the most synthetically accessible CF 3 -substituted derivative is an excellent catalyst for the photoinduced conversion of bromide to bromine (phenol, toluene, and benzene assay).

Published

2019

457. A Hemicyanine-Embedded Diphenylselenide-Containing Probe "HemiSe" in which SePh 2 Stays Reduced for Selective Detection of Superoxide in Living Cells.

Author

Halle MB, Lee KJ, Yudhistira T, Choi JH, Park HS, and Churchill DG

Subjects

Animals, Mice, Microscopy, Confocal methods, Optical Imaging methods, Oxidation-Reduction, RAW 264.7 Cells, Spectrometry, Fluorescence methods, Carbocyanines chemistry, Fluorescent Dyes chemistry, Organoselenium Compounds chemistry, Superoxides analysis

Abstract

A simple one-step synthesis of fluorescent probe HemiSe has been developed for the detection of superoxide (O 2 .- ). The probe undergoes reaction specifically with O 2 .- when in the presence of other competitive ROS/RNS/metal ions. The diphenylselenide was incorporated to completely quench the fluorescence of the hemicyanine unit through the action of a photoinduced electron transfer (PET) photomechanism. However, after the addition of O 2 .- , the latent fluorophore regains its fluorescence owing to the reaction at the C=C bond of the hemicyanine with O 2 .- through nucleophilic attack; the increase in blue emission is due to a reaction of the double bond within HemiSe followed by an increase in fluorescence quantum yield (Φ) up to 0.45; the limit of detection (LOD) is 11.9 nm. A time-dependent study shows that HemiSe can detect superoxide within 13 min with high sensitivity, high selectivity, over a wide pH range, and through confirmation with a xanthine/xanthine oxidase biochemical assay (λ em =439 nm). A study in the RAW 264.7 macrophage living cells also shows that HemiSe is not toxic, cell permeable (experimental log P=2.11); confocal imaging results show that HemiSe can detect O 2 .- in endogenous and exogeneous systems., (© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2018

458. Overriding Phthalate Decomposition When Exploring Mycophenolic Acid Intermediates as Selenium-Based ROS Biological Probes.

Author

Halle MB, Yudhistira T, Lee KJ, Choi JH, Kim Y, Park HS, and Churchill DG

Abstract

Hypochlorous (OCl - ) acid is the most well-known bacterial oxidant to be produced by neutrophils. Excess amounts of OCl - can cause various disorders in living systems. Herein, we have designed, synthesized, and characterized two novel organoselenium-based target molecules ( Probe-1 and Probe-OCl ) based on a synthetic intermediate of mycophenolic acid for the aqueous detection of OCl - . Probe 1 has been recently reported ( Org . Lett . 2018 , 20 , 3557-3561); both probes show immediate "turn-on" fluorescence (<1 s) upon the addition of OCl - , display an increase in the fluorescence quantum yield (3.7-fold in Probe-1 and 11.6-fold in Probe-OCl ), and are completely soluble in aqueous media without the help of any cosolvent. However, a decrease in the "turn-on" intensity with the oxidized version of Probe-1 in cell assays due to the anhydride/phthalate functionality suggests that probe degradation occurs based on hydrolytic action (a probe degradation half-life of ∼1500 s at 15 μM Probe-1 and 150 μM OCl). Thus, the change of "anhydride" to "methylamide" begets Probe-OCl , which possesses more stability without sacrificing its water solubility properties and responses at short times. Further studies suggest that Probe-OCl is highly stable within physiological pH (pH = 7.4). Surprisingly, in live cell experiments involving U-2 OS cells and HeLa cells, Probe-OCl accumulated and aggregated in lipid droplets and gives a "turn-on" fluorescence response. 3-(4,5-Dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide assays confirmed that Probe-OCl is not toxic. Cuvette aggregation studies were also performed (tetrahydrofuran/H 2 O) to demonstrate aggregation-induced fluorescence at longer times. Our current hypothesis is that the "turn-on" fluorescence effect is caused by the aggregation-induced emission mechanism available for Probe-OCl . In this case, in tandem, we reanalyzed the Mes-BOD-SePh derivative to compare and contrast cell localization as imaged by confocal microscopy; fluorescence emission occurs in the absence of, or prior to, Se oxidation., Competing Interests: The authors declare no competing financial interest.

Published

2018

459. Sodium and Potassium Relating to Parkinson's Disease and Traumatic Brain Injury.

Author

Ha Y, Jeong JA, Kim Y, and Churchill DG

Subjects

Humans, Ion Channel Gating, Ischemia metabolism, Brain Injuries metabolism, Parkinson Disease metabolism, Potassium metabolism, Sodium metabolism

Abstract

Alkali metals, especially sodium and potassium, are plentiful and vital in biological systems. They take on important roles in health and disease. Such roles include the regulation of homeostasis, osmosis, blood pressure, electrolytic equilibria, and electric current. However, there is a limit to our present understanding; the ions have a great ability and capacity for action in health and disease, much greater than our current understanding. For the regulation of physiological homeostasis, there is a crucial regulator (renin-angiotensin system, RAS), found at both peripheral and central levels. Misregulation of the Na(+)-K(+) pump, and sodium channels in RAS are important for the understanding of disease progression, hypertension, diabetes, and neurodegenerative diseases, etc. In particular, RAS displays direct or indirect interaction important to Parkinson's disease (PD). In this chapter, the relationship between the regulation of sodium/potassium concentration and PD was sought. In addition, some recent biochemical and clinical findings are also discussed that help describe sodium and potassium in the context of traumatic brain injury (TBI). TBI is caused from the heavy striking of the head; this strongly affects ion flux in the affected tissue (brain) and damages cellular regulation systems. Thus, inappropriate concentrations of ions (hyper- and hyponatremia, and hyper- and hypokalemia) will perturb homeostasis giving rise to important and far reaching effects. These changes also impact osmotic pressure and the concentration of other metal ions, such as the calcium(II) ion.

Published

2016

460. Bioinorganic Chemistry of the Alkali Metal Ions.

Author

Kim Y, Nguyen TT, and Churchill DG

Subjects

Earth, Planet, Geological Phenomena, Metals, Alkali classification, Metals, Alkali chemistry, Seawater chemistry

Abstract

The common Group 1 alkali metals are indeed ubiquitous on earth, in the oceans and in biological systems. In this introductory chapter, concepts involving aqueous chemistry and aspects of general coordination chemistry and oxygen atom donor chemistry are introduced. Also, there are nuclear isotopes of importance. A general discussion of Group 1 begins from the prevalence of the ions, and from a comparison of their ionic radii and ionization energies. While oxygen and water molecule binding have the most relevance to biology and in forming a detailed understanding between the elements, there is a wide range of basic chemistry that is potentially important, especially with respect to biological chelation and synthetic multi-dentate ligand design. The elements are widely distributed in life forms, in the terrestrial environment and in the oceans. The details about the workings in animal, as well as plant life are presented in this volume. Important biometallic aspects of human health and medicine are introduced as well. Seeing as the elements are widely present in biology, various particular endogenous molecules and enzymatic systems can be studied. Sodium and potassium are by far the most important and central elements for consideration. Aspects of lithium, rubidium, cesium and francium chemistry are also included; they help in making important comparisons related to the coordination chemistry of Na(+) and K(+). Physical methods are also introduced.

Published

2016

461. Dopamine and Cu+/2+ can induce oligomerization of α-synuclein in the absence of oxygen: Two types of oligomerization mechanisms for α-synuclein and related cell toxicity studies.

Author

Ha Y, Yang A, Lee S, Kim K, Liew H, Lee SH, Lee JE, Lee HI, Suh YH, Park HS, and Churchill DG

Subjects

Cell Line, Tumor, Dose-Response Relationship, Drug, Humans, Mass Spectrometry, Neuroblastoma pathology, Oxidation-Reduction drug effects, Oxidative Stress drug effects, alpha-Synuclein pharmacology, Copper pharmacology, Dopamine pharmacology, Dopaminergic Neurons drug effects, Hypoxia metabolism, alpha-Synuclein metabolism

Abstract

α-Synuclein oligomers can induce neurotoxicity and are implicated in Parkinson's disease etiology and disease progression. Many studies have reported α-synuclein oligomerization by dopamine (DA) and transition metal ions, but few studies provide insight into joint influences of DA and Cu2+ . In this study, DA and Cu2+ were coadministered aerobically to measure α-synuclein oligomerization under these conditions. In the presence of oxygen, DA induced α-synuclein oligomerization in a dose-dependent manner. Cu+/2+ did not effect oligomerization in such a manner in the presence of DA. By electrophoresis, Cu2+ was found easily to induce oligomerization with DA. This implies that oligomerization invoked by DA is reversible in the presence of Cu2+, which appears to be mediated by noncovalent bond interactions. In the absence of oxygen, DA induced less oligomerization of α-synuclein, whereas DA/Cu2+ induced aerobic-level amounts of oligomers, suggesting that DA/Cu2+ induces oligomerization independent of oxygen concentration. Radical species were detected through electron paramagnetic resonance (EPR) spectroscopic analysis arising from coincubation of DA/Cu2+ with α-synuclein. Redox reactions induced by DA/Cu2+ were observed in multimer regions of α-synuclein oligomers through NBT assay. Cellular toxicity results confirm that, for normal and hypoxic conditions, copper or DA/Cu2+ can induce cell death, which may arise from copper redox chemistry. From these results, we propose that DA and DA/Cu2+ induce different mechanisms of α-synuclein oligomerization, cross-linking with noncovalent (or reversible covalent) bonding vs. likely radical-mediated covalent modification., (Copyright © 2013 Wiley Periodicals, Inc.)

Published

2014

462. Selective and sensitive superoxide detection with a new diselenide-based molecular probe in living breast cancer cells.

Author

Manjare ST, Kim S, Heo WD, and Churchill DG

Subjects

Boron Compounds chemistry, Breast Neoplasms, Female, Humans, MCF-7 Cells, Molecular Structure, Nuclear Magnetic Resonance, Biomolecular, Organoselenium Compounds chemistry, Oxidation-Reduction, Tumor Cells, Cultured, Boron Compounds chemical synthesis, Molecular Probes, Organoselenium Compounds chemical synthesis, Superoxides analysis

Abstract

A diselenide-based BODIPY probe was prepared; it was found to be sensitive and selective for superoxide in giving [-Se(O)Se(O)-] oxidation. Probing was reversible through the use of biothiols; (77)Se NMR and other types of spectroscopy were employed. Practical medicinal utility was demonstrated in MCF-7/ADR cancer cells.

Published

2014

463. Facile meso-BODIPY annulation and selective sensing of hypochlorite in water.

Author

Manjare ST, Kim J, Lee Y, and Churchill DG

Subjects

Boron Compounds chemical synthesis, Hypochlorous Acid analysis, Hypochlorous Acid chemistry, Molecular Structure, Selenium chemistry, Tellurium chemistry, Water chemistry, X-Ray Diffraction, Boron Compounds chemistry, Fluorescent Dyes chemistry

Abstract

Annulated BODIPY chalcogenide (Se, Te) systems were synthesized from their respective bis(o-formylphenyl)dichalcogenide intermediates. The annulated BODIPY selenide product was confirmed by X-ray diffraction. The red-shifted telluride version was found to be sensitive and selective for hypochlorite detection, reversible upon treatment with biothiols.

Published

2014

464. Role of water in directing diphenylalanine assembly into nanotubes and nanowires.

Author

Kim J, Han TH, Kim YI, Park JS, Choi J, Churchill DG, Kim SO, and Ihee H

Subjects

Dipeptides, Nanotubes ultrastructure, Nanowires ultrastructure, Phenylalanine chemistry, Nanotubes chemistry, Nanowires chemistry, Phenylalanine analogs & derivatives, Water chemistry

Published

2010

465. Synthetic, cyclic voltammetric, structural, EPR, and UV-Vis spectroscopic studies of thienyl-containing meso-A(2)B-cor(Cr(V)=O) systems: consideration of three interrelated molecular detection modalities.

Author

Egorova OA, Tsay OG, Khatua S, Meka B, Maiti N, Kim MK, Kwon SJ, Huh JO, Bucella D, Kang SO, Kwak J, and Churchill DG

Subjects

Catalysis, Chromium Compounds chemical synthesis, Crystallography, X-Ray, Electrochemistry, Electron Spin Resonance Spectroscopy, Metals chemistry, Models, Molecular, Molecular Structure, Porphyrins chemical synthesis, Spectrophotometry, Ultraviolet, Chromium Compounds chemistry, Porphyrins chemistry

Abstract

We report eight new A(2)B-type (M(n+)) corrolate compounds (two structural studies) that include the oxo[5,15-bis(pentafluorophenyl)-10-R-corrolatochromium(V)] [R = 2-/3-thienyl (1a/2a), 3-thianaphthyl (3a)] species. The first examples of meso-A(2) (thienyl)- and Cr-A(2)B-corrole types are represented herein. Characterization includes cyclic voltammetry, electron paramagnetic resonance, 2D ((1)H and (13)C) NMR, and UV-vis spectroscopy, mass spectrometry, and elemental analysis. Compounds 1a-3a have enabled analyte binding capacity studies. [Cu(2+)...O=Cr(cor)] binding represents a new selective mode of corrole-based detection, whereas free-base A(2)B-corroles exhibited limited M(n+) selectivity. The 10-position substitution affects optical profiles in analyte titrations. A limited amount of PPh(3) O-atom uptake from [O=Cr(cor)] was also demonstrated.

Published

2010

466. A chiral meso-ABC-corrolatochromium(V) complex.

Author

Egorova OA, Tsay OG, Khatua S, Huh JO, and Churchill DG

Subjects

Crystallography, X-Ray, Electrodes, Electron Spin Resonance Spectroscopy, Models, Molecular, Molecular Structure, Organometallic Compounds chemistry, Chromium chemistry, Organometallic Compounds chemical synthesis

Abstract

A chiral metallocorrole complex, oxo[5-(4-bromophenyl)-10-(pentafluorophenyl)-15-(2-thianaphthyl)corrolato]chromium(V) (7), was prepared and serves as the first example of an ABC-metallocorrole; meso substituents are of different electron-withdrawing capacity. An adaptation of a multistep protocol (D. T. Gryko) was made, followed by an aerobic oxidation using Cr(CO)(6) (Z. Gross). The X-ray crystal structure reveals the two enantiomers of 7. Electron paramagnetic resonance spectroscopy (g(iso) = 1.99) and cyclic voltammetry of 7 provide comparative data to that of the A(3)[tris(pfp)cCr(V)O] complex.

Published

2009

467. Aqueous fluorometric and colorimetric sensing of phosphate ions by a fluorescent dinuclear zinc complex.

Author

Khatua S, Choi SH, Lee J, Kim K, Do Y, and Churchill DG

Subjects

Circular Dichroism, Colorimetry, Crystallography, X-Ray, Fluorometry, Ions analysis, Magnetic Resonance Spectroscopy, Models, Molecular, Organometallic Compounds chemical synthesis, Sensitivity and Specificity, Spectrophotometry, Ultraviolet, Fluorescence, Organometallic Compounds chemistry, Phosphates analysis, Water chemistry, Zinc chemistry

Abstract

A fluorescent dinuclear zinc complex (1) has been prepared by an easy "one pot" method in which the lysine-based Schiff base ligand is generated in situ. The compound is characterized in detail by various spectroscopic techniques and single-crystal X-ray diffraction. Crystal data: monoclinic, C2, a = 18.31(13) A, b = 8.45(7) A, c = 11.20(8) A, beta = 90.11(6) degrees, V = 1733.6(2) A(3). Z = 2, R1 = 0.0442, wR2 = 0.1068, Flack(x) parameter = 0.03(2). Compound 1 is highly fluorescent, in both the solution phase and as a solid. Under neutral aqueous conditions (0.01 M HEPES buffer, pH 7.4), compound 1 exhibits intense blue fluorescence (lambda(ex) = 352 nm, lambda(em) = 453 nm, Phi(F) = 0.17). The complex was tested with several anions, such as F(-), Br(-), I(-), AcO(-), HCO(3)(-), H(2)PO(4)(-), HPO(4)(2-), PO(4)(3-), and a variety of biologically relevant phosphate anions, such as adenosine monophosphate (AMP), cyclic adenosine monophosphate (cAMP), inorganic pyrophosphate (PPi, P(2)O(7)(4-)), adenosine diphosphate (ADP), and adenosine triphosphate (ATP), in water at physiological pH. The dizinc species was found to act as a highly selective sensor for PPi in particular by fluorescence ON-OFF signaling. Both the fluorometric and colorimetric (indicator displacement assays) titration results suggest that compound 1 is a highly selective sensor for phosphate ions with the order PPi > or = ATP > ADP.

Published

2009

468. Highly selective fluorescence detection of Cu2+ in water by chiral dimeric Zn2+ complexes through direct displacement.

Author

Khatua S, Choi SH, Lee J, Huh JO, Do Y, and Churchill DG

Subjects

Hydrogen-Ion Concentration, Sensitivity and Specificity, Spectrophotometry, Ultraviolet, Stereoisomerism, Copper analysis, Dimerization, Fluorescence, Organometallic Compounds chemistry, Water chemistry, Zinc chemistry

Abstract

Fluorescent dinuclear chiral zinc complexes were synthesized in a "one-pot" method in which the lysine-based Schiff base ligand was generated in situ. This complex acts as a highly sensitive and selective fluorescent ON-OFF probe for Cu(2+) in water at physiological pH. Other metal ions such as Hg(2+), Cd(2+), and Pb(2+) gave little fluorescence change.

Published

2009

469. Optical effects of S-oxidation and M(n+) binding in meso-thienyl dipyrrin systems and of stepwise bromination of 4,4-difluoro-8-(2,5-dibromo-3-thienyl)-4-bora-3a,4a-diaza-s-indacene.

Author

Choi SH, Kim K, Jeon J, Meka B, Bucella D, Pang K, Khatua S, Lee J, and Churchill DG

Abstract

We report 16 novel species and 8 molecular structures in studying how meso-thienyl-substituted dipyrrole oxidation, bromination, and metal ion binding impart optical changes, as monitored by UV-vis absorption/emission spectroscopy. Treatment of 4,4-difluoro-8-(3-benzothienyl)-4-bora-3a,4a-diaza-s-indacene (varphi(F) = 0.19) with m-CPBA gives selective S-dioxidation (varphi(F) = 0.006). Results of titrations of transition metal- and "scorpionate"-like dipyrrin species varied under room temperature treatment of m-CPBA. Ni-(thienyl-dipyrrin)(n) (n = 2) degraded significantly in the presence of m-CPBA, whereas related species (M = Cu, Fe, Co; n = 2, 3) were inert. meso-Thienyl group properties were revealed through the use of 3,4,4-triphenyl-8-(thienyl)-4-bora-3a,4a-diaza-s-indacene; Cu(2+) addition resulted in smooth absorption decreases which were modeled to support 1:1 substrate:M(2+) binding; for Hg(2+) 1:2 substrate:M(2+) binding was found. Treatment of 4,4-difluoro-8-(2,5-dibromo-3-thienyl)-4-bora-3a,4a-diaza-s-indacene with Br(2) gave red-shifted UV-vis absorption band features that grow with increasing dipyrrin bromination. Structures of the di- and tetra-substituted bromination products were obtained.

Published

2008

470. Cu2+ colorimetric sensing and fluorescence enhancement and Hg2+ fluorescence diminution in "scorpionate"-like tetrathienyl-substituted boron-dipyrrins.

Author

Choi SH, Pang K, Kim K, and Churchill DG

Abstract

Four novel tetrathienyl-substituted boron-dipyrrin-type (BODIPY-type) complexes, 3-(R')-4,4-di(R')-8-R-4-bora-3a,4a-diaza-s-indacene (4a, R = 2-T, R' = 2-T; 4b, R = 3-T, R' = 2-T; 5a, R = 2-T, R' = 3-T; 5b, R = 3-T, R' = 3-T; T = thienyl) have been prepared and fully characterized to explore patterns of stoichiometric Mn+ recognition in solution. Treatment of the respective parent BF2 dipyrrin with 2- or 3-thienyllithium gave the unexpected asymmetric tetrathienyl-substituted products in 8.5-35% yield. Compounds 4a and 4b bear a neutral "scorpionate"-like [SSS] tridentate binding pocket. Extensive NMR and UV-vis spectroscopic studies were performed on 4a-5b; 5a, 4b, and 5b were structurally characterized. The PhiF values for 4a-5b all decrease compared to the BF2-containing parent molecules (0.00058, 0.012, 0.00090, and 0.0051, respectively), with lambda(abs,max) values (epsilon, M(-1) cm(-1)) of 563 (44,000), 553 (29,000), 539 (33,000), and 531 (44,000) nm, respectively, and Stokes' shifts of 25-36 nm. Upon treatment with metal ion (Ca2+, Cs+, Mn2+, Co2+, Cu2+, Ag+, Zn2+, Cd2+, Hg2+, Pb2+) perchlorate salts, the solution of 4b undergoes rapid pink-to-clear switch-off behavior upon Cu2+ addition (10 microM scale) with smaller effects seen for 4a. Further, there were 2- to 19-fold Cu2+ fluorescence enhancements for these ligands. Cu2+- and Hg2+-L (L = 4a-5b) binding was modeled, and response patterns for Mn+-L 1:1 molar solutions upon Cu2+ addition were measured. Upon treatment with Hg2+, all ligand solutions show a significant fluorescence decrease accompanied by minor absorption increases. The UV-vis spectroscopic detection limit for Cu2+ and Hg2+ is approximately 270 ppb and approximately 1.7 ppm, respectively; the naked eye detection limit for Cu2+ with 4b (1.0 x 10(-5) M) is approximately 23 microM. DFT calculations gave HOMO-LUMO gaps of 478 (4a), 462 (4b), 448 (5a), and 442 nm (5b). Molecular orbital diagrams for 4a-5b revealed that the HOMO and LUMO electron density is distributed onto the 3-position-thienyl group and to a lesser degree the B(thienyl)2 moiety.

Published

2007

471. Favorable pendant-amino metal chelation in VX nerve agent model systems.

Author

Bandyopadhyay I, Kim MJ, Lee YS, and Churchill DG

Abstract

We have performed DFT computational studies [B3LYP, 6-31+G] to obtain metal ion coordination isomers of VX-Me [MeP(O)(OMe)(SCH2CH2NMe2)], a model of two of the most lethal nerve agents: VX [MeP(O)(OEt)(SCH2CH2N(iPr)2)] and Russian-VX [MeP(O)(OCH2CHMe2)(SCH2CH2N(Et)2)]. Our calculations involved geometry optimizations of the neutral VX-Me model as well as complexes with H+, Li+, Na+, K+, Be2+, Mg2+, and Ca2+ that yielded 2-8 different stable chelation modes for each ion that involved mainly mono- and bidentate binding. Importantly, our studies revealed that the [O(P),N] bidentate binding mode, long thought to be the active mode in differentiating the hydrolytic path of VX from other nerve agents, was the most stable for all ions studied here. Binding energy depended mainly on ionic size as well as charge, with binding energies ranging from 364 kcal mol(-1) for Be2+ to 33 kcal mol(-1) for K+. Furthermore, calculated NMR shifts for VX-Me correlate to experimental values of VX.

Published

2006

472. Gadolinium(III) 1,2-hydroxypyridonate-based complexes: toward MRI contrast agents of high relaxivity.

Author

Xu J, Churchill DG, Botta M, and Raymond KN

Subjects

Contrast Media chemical synthesis, Crystallography, X-Ray, Models, Chemical, Molecular Structure, Protons, Chelating Agents chemical synthesis, Chelating Agents chemistry, Contrast Media chemistry, Gadolinium chemistry, Magnetic Resonance Imaging, Organometallic Compounds chemical synthesis, Organometallic Compounds chemistry, Pyridones chemistry

Abstract

Prospective gadolinium(III) MRI contrast agent precursors [Gd-TREN-1,2-HOPO] (1) [TREN-1,2-HOPO = tris[(1-hydroxy-2-oxo-1,2-dihydropyridine-6-carboxamido)ethyl]amine] and [Gd-TREN-bis(Me-3,2-HOPO)-1,2-HOPO] (2) have been synthesized and characterized by relaxometric measurements. The water proton relaxivity values of 1 and 2 (20 MHz and 25 degrees C) are 9.5 and 9.3 mM(-)(1)s(-)(1), respectively, suggesting the presence of two coordinated water molecules. The molecular structure of [1.DMF](2) was obtained and reveals a similar eight-coordinate geometry to [Gd-TREN-Me-3,2-HOPO.2H(2)O] ([3.2H(2)O]). A shape analysis of the coordination polyhedron of 1 reveals that this geometry is best described as a bicapped trigonal prism, poised to accommodate an additional donor atom to give a tricapped trigonal prismatic intermediate. This geometry supports the model that formation of a tris-aquo intermediate for 1 enables fast and associative water exchange.

Published

2004

473. Normal and inverse primary kinetic deuterium isotope effects for C-H bond reductive elimination and oxidative addition reactions of molybdenocene and tungstenocene complexes: evidence for benzene sigma-complex intermediates.

Author

Churchill DG, Janak KE, Wittenberg JS, and Parkin G

Abstract

The overall reductive elimination of RH from the ansa-molybdenocene and -tungstenocene complexes [Me(2)Si(C(5)Me(4))(2)]Mo(Ph)H and [Me(2)Si(C(5)Me(4))(2)]W(R)H (R = Me, Ph) is characterized by an inverse primary kinetic isotope effect (KIE) for the tungsten system but a normal KIE for the molybdenum system. Oxidative addition of PhH to [[Me(2)Si(C(5)Me(4))(2)]M] also differs for the two systems, with the molybdenum system exhibiting a substantial intermolecular KIE, while no effect is observed for the tungsten system. These differences in KIEs indicate a significant difference in the reactivity of the hydrocarbon adducts [Me(2)Si(C(5)Me(4))(2)]M(RH) for the molybdenum and tungsten systems. Specifically, oxidative cleavage of [Me(2)Si(C(5)Me(4))(2)]M(RH) is favored over RH dissociation for the tungsten system, whereas RH dissociation is favored for the molybdenum system. A kinetics analysis of the interconversion of [Me(2)Si(C(5)Me(4))(2)]W(CH(3))D and [Me(2)Si(C(5)Me(4))(2)]W(CH(2)D)H, accompanied by elimination of methane, provides evidence that the reductive coupling step in this system is characterized by a normal KIE. This observation demonstrates that the inverse KIE for overall reductive elimination is a result of an inverse equilibrium isotope effect (EIE) and is not a result of an inverse KIE for a single step. A previous report of an inverse kinetic isotope effect of 0.76 for C-H reductive coupling in the [Tp]Pt(CH(3))H(2) system is shown to be erroneous. Finally, a computational study provides evidence that the reductive coupling of [Me(2)Si(C(5)Me(4))(2)]W(Ph)H proceeds via the initial formation of a benzene sigma-complex, rather than an eta(2)-pi-benzene complex.

Published

2003

474. Computational evidence that the inverse kinetic isotope effect for reductive elimination of methane from a tungstenocene methyl-hydride complex is associated with the inverse equilibrium isotope effect for formation of a sigma-complex intermediate.

Author

Janak KE, Churchill DG, and Parkin G

Abstract

Calculations on [H2Si(C5H4)2]W(Me)H demonstrate that the interconversion between [H2Si(C5H4)2]W(Me)H and the sigma-complex [H2Si(C5H4)2]W(sigma-HMe) is characterized by normal kinetic isotope effects for both reductive coupling and oxidative cleavage; the equilibrium isotope effect, however, is inverse and is the origin of the inverse kinetic isotope effect for the overall reductive elimination of methane.

Published

2003

475. A non-classical hydrogen bond in the molybdenum arene complex [eta 6-C6H5C6H3(Ph)OH]Mo(PMe3)3: evidence that hydrogen bonding facilitates oxidative addition of the O-H bond.

Author

Hascall T, Baik MH, Bridgewater BM, Shin JH, Churchill DG, Friesner RA, and Parkin G

Subjects

Electrochemistry, Hydrogen Bonding, Macromolecular Substances, Oxidation-Reduction, Molybdenum chemistry

Abstract

Mo(PMe3)6 reacts with 2,6-Ph2C6H3OH to give the eta 6-arene complex [eta 6-C6H5C6H3(Ph)OH]Mo(PMe3)3 which exhibits a non-classical Mo...H-OAr hydrogen bond; DFT calculations indicate that the hydrogen bonding interaction facilitates oxidative addition of the O-H bond to give [eta 6,eta 1-C6H5C6H3(Ph)O]Mo(PMe3)2H.

Published

2002

476. The reactivity of Mo(PMe3)(6) towards heterocyclic nitrogen compounds: transformations relevant to hydrodenitrogenation.

Author

Zhu G, Tanski JM, Churchill DG, Janak KE, and Parkin G

Abstract

The reactions of Mo(PMe3)6 towards a variety of five- and six-membered heterocyclic nitrogen compounds (namely, pyrrole, indole, carbazole, pyridine, quinoline, and acridine) have been studied to provide structural models for the coordination of these heterocycles to the molybdenum centers of hydrodenitrogenation catalysts. Pyrrole reacts with Mo(PMe3)6 to yield the eta5-pyrrolyl derivative (eta5-pyr)Mo(PMe3)3H, while indole gives sequentially (eta1-indolyl)Mo(PMe3)4H, (eta5-indolyl)Mo(PMe3)3H, and (eta6-indolyl)Mo(PMe3)3H, with the latter representing the first example of a structurally characterized complex with an eta6-indolyl ligand. Likewise, carbazole reacts with Mo(PMe3)6 to give (eta6-carbazolyl)Mo(PMe3)3H with an eta6-carbazolyl ligand. The reactions of Mo(PMe3)6 with six-membered heterocyclic nitrogen compounds display interesting differences in the nature of the products. Thus, Mo(PMe3)6 reacts with pyridine to give an eta2-pyridyl derivative [eta2-(C5H4N)]Mo(PMe3)4H as a result of alpha-C-H bond cleavage, whereas quinoline and acridine give products of the type (eta6-ArH)Mo(PMe3)3 in which both ligands coordinate in an eta6-manner. For the reaction with quinoline, products with both carbocyclic and heterocyclic coordination modes are observed, namely [eta6-(C6)-quinoline]Mo(PMe3)3 and [eta6-(C5N)-quinoline]Mo(PMe3)3, whereas only carbocyclic coordination is observed for acridine.

Published

2002

477. Thiophene and butadiene-thiolate complexes of molybdenum: observations relevant to the mechanism of hydrodesulfurization.

Author

Janak KE, Tanski JM, Churchill DG, and Parkin G

Abstract

Mo(PMe3)6 reacts with thiophene to give the eta5-thiophene complex (eta5-C4H4S)Mo(PMe3)3 and the eta5-butadiene-thiolate complex (eta5-C4H5S)Mo(PMe3)2(eta2-CH2PMe2), which are the first examples of (i) eta5-thiophene coordination and (ii) C-S cleavage and hydrogenation by a molybdenum compound. Deuterium labeling studies suggest that the hydrogenation of thiophene may involve an alkylidene intermediate, an observation that has ramifications for the mechanisms of hydrodesulfurization.

Published

2002

478. Remarkable Rate Enhancement of Ligand Substitution Promoted by Geometrical Arrangement of Tridentate "Spectator" Ligands K.J.T. acknowledges Arco Chemical and the National Science Foundation for support of this research. M.H.V.H. gratefully acknowledges postdoctoral fellowship support from the Director's Office of Los Alamos National Laboratory. Los Alamos National Laboratory is operated by the University of California for the U.S. Department of Energy under Contract W-7405-ENG-36. M.H.V.H. also thanks Dr. Beverly K. Hartline (Deputy Laboratory Director, Argonne National Laboratory), Dr. Donald G. Lee (Chemistry Professor, University of Regina, Saskatchewan, Canada, S4S0A2), Dr. R. Thomas Baker (Los Alamos National Laboratory), and Dr. David E. Morris (Los Alamos National Laboratory) for their suggestions and discussions.

Author

Huynh MH, Smyth J, Wetzler M, Mort B, Gong PK, Witham LM, Jameson DL, Geiger DK, Lasker JM, Charepoo M, Gornikiewicz M, Cintron JM, Imahori G, Sanchez RR, Marschilok AC, Krajkowski LM, Churchill DG, Churchill MR, and Takeuchi KJ

Published

2001

479. Asymmetric Synthesis of 2,3-Dihydrofurans by Reaction of Rhodium-Stabilized Vinylcarbenoids with Vinyl Ethers.

Author

Davies HM, Ahmed G, Calvo RL, Churchill MR, and Churchill DG

Abstract

Rhodium(II) octanoate catalyzed decomposition of 2-diazo-3-siloxybutenoates, containing (R)-pantolactone as a chiral auxiliary, in the presence of vinyl ethers results in the diastereoselective synthesis of cyclopropanes with high asymmetric induction. Treatment of the cyclopropanes with tetrabutylammonium fluoride results in desilylation and ring expansion of the resulting acylcyclopropanes to 2,3-dihydrofurans with retention of stereochemistry.

Published

1998