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1,569 results on '"Zakharov, Lev N."'

1. Thionitrite (SNO−) and Perthionitrite (SSNO−) are Simple Synthons for Nitrosylated Iron Sulfur Clusters

Author

Sherbow, Tobias J, Fu, Wen, Tao, Lizhi, Zakharov, Lev N, Britt, R David, and Pluth, Michael D

Subjects
Inorganic Chemistry, Chemical Sciences, Iron, Nitrites, Nitroso Compounds, Sulfhydryl Compounds, Sulfur, Iron Nitrosyl, Perthionitrite, Reactive Sulfur Species, Thionitrite, Organic Chemistry, Chemical sciences
Abstract

S/N crosstalk species derived from the interconnected reactivity of H2 S and NO facilitate the transport of reactive sulfur and nitrogen species in signaling, transport, and regulatory processes. We report here that simple Fe2+ ions, such as those that are bioavailable in the labile iron pool (LIP), react with thionitrite (SNO- ) and perthionitrite (SSNO- ) to yield the dinitrosyl iron complex [Fe(NO)2 (S5 )]- . In the reaction of FeCl2 with SNO- we were able to isolate the unstable intermediate hydrosulfido mononitrosyl iron complex [FeCl2 (NO)(SH)]- , which was characterized by X-ray crystallography. We also show that [Fe(NO)2 (S5 )]- is a simple synthon for nitrosylated Fe-S clusters via its reduction with PPh3 to yield Roussin's Red Salt ([Fe2 S2 (NO)4 ]2- ), which highlights the role of S/N crosstalk species in the assembly of fundamental Fe-S motifs.

Published
2022

3. Butyltin Keggin Ion with a Rare Four-Coordinate Ca Center

Author

Hutchison, Danielle C, Stern, Rebecca D, Zakharov, Lev N, Persson, Kristin A, and Nyman, May

Subjects
Inorganic Chemistry, Chemical Sciences, Physical Chemistry, Physical Chemistry (incl. Structural), Other Chemical Sciences, Inorganic & Nuclear Chemistry, Inorganic chemistry, Macromolecular and materials chemistry
Abstract

Alkyltin clusters are exploited in nanolithography for the fabrication of microelectronics. The alkyltin Keggin family is unique among Keggin clusters across the periodic table; its members appear to favor the lower-symmetry β and γ isomers rather than the highly symmetrical α and ε isomers. Therefore, the alkyltin Keggin family may provide important fundamental information about the formation and isomerization of Keggin clusters. We have synthesized and structurally characterized a new butyltin Keggin cluster with a tetrahedral Ca2+ center, fully formulated [(BuSn)12(CaO4)(OCH3)12(O)4(OH)8]2+ (β-CaSn12). The synthesis is a simple one-step process. Extensive solution characterization including electrospray ionization mass spectrometry, small-angle X-ray scattering, and multinuclear (1H, 13C, and 119Sn) nuclear magnetic resonance shows β-CaSn12 is essentially phase-pure and stable. This differs from the previously reported Na-centered analogues that always form a mixture of β and γ isomers, with facile interconversion. Therefore, this study has clarified prior confusion over complex spectroscopic and crystallographic characterization of the Na-centered analogues. Density functional theory calculations showed the following stability order: γ-CaSn12 < γ-NaSn12 < β-CaSn12 < β-NaSn12. The β analogue is always more stable than the γ analogue, consistent with experiment. Notable outcomes of this study include a rare tetrahedral Ca coordination, a Na-free alkyltin cluster (important for microelectronics manufacturing), and a better understanding of Keggin families built of different metal cations.

Published
2020

4. 3-Position Biaryl Endochin-like Quinolones with Enhanced Antimalarial Performance

Author

Pou, Sovitj, primary, Winter, Rolf W., additional, Dodean, Rozalia A., additional, Liebman, Katherine, additional, Li, Yuexin, additional, Mather, Michael W., additional, Nepal, Binod, additional, Nilsen, Aaron, additional, Handford, Mason J., additional, Riscoe, Teresa M., additional, Laxson, Sydney, additional, Kirtley, Payton J., additional, Aleshnick, Maya, additional, Zakharov, Lev N., additional, Kelly, Jane X., additional, Smilkstein, Martin J., additional, Wilder, Brandon K., additional, Kortagere, Sandhya, additional, Vaidya, Akhil B., additional, Alday, P. Holland, additional, Doggett, J. Stone, additional, and Riscoe, Michael K., additional

Published
2024
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7. Stable Heterometallic Cluster Ions based on Werner's Hexol

Author

Marsh, David A, Elliott, William S, Smith, Rachel M, Sharps, Meredith C, Baumeister, Mary K, Carnes, Matthew E, Zakharov, Lev N, Casey, William H, and Johnson, Darren W

Subjects
Al-27 NMR spectroscopy, aluminum clusters, aqueous geochemistry, heterometallic clusters, polyoxocations, 27Al NMR spectroscopy, Chemical Sciences, Organic Chemistry
Abstract

Large aqueous ions are interesting because they are useful in materials science (for example to generate thin films) but also because they serve as molecular models for the oxide-aqueous mineral interface where spectroscopy is difficult. Here we show that new clusters of the type M[(μ-OH)2 Co(NH3 )4 ]3 (NO3 )6 (M=Al, Ga) can be synthesized using Werner's century-old cluster as a substitutable framework. We substituted Group 13 metals into the hexol Co[(μ-OH)2 Co(NH3 )4 ]36+ ion to make diamagnetic heterometallic ions. The solid-state structure of the hexol-type derivatives were determined by single-crystal XRD and NMR spectroscopy and confirmed that the solid-state structure persists in solution after dissolution into either D2 O or [D6 ]DMSO. Other compositions besides these diamagnetic ions can undoubtedly be made using a similar approach, which considerably expands the number of stable aqueous heteronuclear ions.

Published
2017

8. Synthesis and Properties of Fluorenone-Containing Cycloparaphenylenes and Their Late-Stage Transformation

Author

Bliksted Roug Pedersen, Viktor, Price, Tavis W., Kofod, Nicolaj, Zakharov, Lev N., Laursen, Bo W., Jasti, Ramesh, Brøndsted Nielsen, Mogens, Bliksted Roug Pedersen, Viktor, Price, Tavis W., Kofod, Nicolaj, Zakharov, Lev N., Laursen, Bo W., Jasti, Ramesh, and Brøndsted Nielsen, Mogens

Abstract

Cycloparaphenylenes (CPPs) are the smallest possible armchair carbon nanotubes, the properties of which strongly depend on their ring size. They can be further tuned by either peripheral functionalization or by replacing phenylene rings for other aromatic units. Here we show how four novel donor–acceptor chromophores were obtained by incorporating fluorenone or 2-(9H-fluoren-9-ylidene)malononitrile into the loops of two differently sized CPPs. Synthetically, we managed to perform late-stage functionalization of the fluorenone-based rings by high-yielding Knoevenagel condensations. The structures were confirmed by X-ray crystallographic analyses, which revealed that replacing a phenylene for a fused-ring-system acceptor introduces additional strain. The donor–acceptor characters of the CPPs were supported by absorption and fluorescence spectroscopic studies, electrochemical studies (displaying the CPPs as multi-redox systems undergoing reversible or quasi-reversible redox events), as well as by computations. The oligophenylene parts were found to comprise the electron donor units of the macrocycles and the fluorenone parts the acceptor units.

Published
2024

10. Pnictogen‐Assisted Self‐Assembly as a Means to Study Mediated Thiol/Disulfide Exchange in Supramolecular Dynamic Covalent Assemblies.

Author

Davis, Willow A., Zakharov, Lev N., and Johnson, Darren W.

Abstract

Thiol‐disulfide interchange has been a large field of study for both biochemists and physical organic chemists alike due to its prevalence within biological systems and fundamentally interesting dynamic nature. More recently, efforts have been made to harness the power of this reversible reaction to make self‐assembling systems of macrocyclic molecules. However, less effort has focused on the fundamental work of isolating these assemblies and studying the factors that control the assembly and sorting of these emerging cyclic systems. A more complete fundamental understanding of factors controlling such self‐assembly could also improve understanding of the complex systems biology of thiol exchange while also aiding in the design of dynamic thiol assembly to enable applications ranging from drug delivery and biosensing to new materials synthesis. We have shown previously that pnictogen‐assisted self‐assembly enables formation of discrete disulfide macrocycles and cages without competition from polymer formation for a wide variety of alkyl thiols. In this study, we report the expansion of pnictogen‐assisted self‐assembly methods to form disulfide bearing macrocycles from aryl thiol containing ligands, allowing access to previously unreported molecules. These studies complement classical physical organic and chemical biology studies on the rates and products of aryl thiol oxidation to disulfides, and we show that this self‐assembly method revises some prevailing wisdom from these key classical studies by providing new product distributions and new isolable products in cyclic disulfide formation. [ABSTRACT FROM AUTHOR]

Published
2024
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14. A Synthetic Supramolecular Receptor for the Hydrosulfide Anion

Author

Hartle, Matthew D, Hansen, Ryan J, Tresca, Blakely W, Prakel, Samuel S, Zakharov, Lev N, Haley, Michael M, Pluth, Michael D, and Johnson, Darren W

Subjects
Biotechnology, Generic health relevance, Anions, Hydrogen Bonding, Hydrogen Sulfide, Kinetics, Magnetic Resonance Spectroscopy, Molecular Conformation, Receptors, Artificial, Spectrophotometry, Ultraviolet, anion binding, gasotransmitters, molecular recognition, sulfide, supramolecular chemistry, Chemical Sciences, Organic Chemistry
Abstract

Hydrogen sulfide (H2 S) has emerged as a crucial biomolecule in physiology and cellular signaling. Key challenges associated with developing new chemical tools for understanding the biological roles of H2 S include developing platforms that enable reversible binding of this important biomolecule. The first synthetic small molecule receptor for the hydrosulfide anion, HS(-) , using only reversible, hydrogen-bonding interactions in a series of bis(ethynylaniline) derivatives, is reported. Binding constants of up to 90 300±8700 m(-1) were obtained in MeCN. The fundamental science of reversible sulfide binding, in this case featuring a key CH⋅⋅⋅S hydrogen bond, will expand the possibility for discovery of sulfide protein targets and molecular recognition agents.

Published
2016

18. Single-Molecule Magnets: High-Field Electron Paramagnetic Resonance Evaluation of the Single-Ion Zero-Field Interaction in a Zn3Ni Complex

Author

Yang, En-Che, Kirman, Cem, Lawrence, Jon, Zakharov, Lev N., Rheingold, Arnold L., Hill, Stephen, and Hendrickson, David N.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

High-field electron paramagnetic resonance (HFEPR) spectra were collected at several frequencies for single crystal [Zn3.91Ni0.09(hmp)4(dmb)4Cl4] (1), where dmb is 3,3-dimethyl-1-butanol and hmp is the monoanion of 2-hydroxymethylpyridine. This crystal is isostructural to [Ni4(hmp)4(dmb)4Cl4] (2), which has been characterized to be a single-molecule magnet (SMM) with fast quantum tunneling of its magnetization (QTM). The single NiII ion zero-field-splitting (zfs) parameters D [= -5.30(5) cm-1] and E [= +/-1.20(2) cm-1] in the doped complex 1 were evaluated by rotation of a crystal in three planes. The easy-axes of magnetization associated with the single-ion zfs interactions were also found to be tilted 15 degrees away from the crystallographic c-direction. This inclination provides a possible explanation for the fast QTM observed for complex 2. The single-ion zfs parameters are then related to the zfs parameters for the Ni4 molecule by irreducible tensor methods to give D = -0.69 cm-1 for the S = 4 ground state of the SMM, where the axial zfs interaction is given by DSz2., Comment: Supplementary figures at: http://www.phys.ufl.edu/~hill/research/ICfigs.pdf

Published
2005

25. Tunable Macrocyclic Polyparaphenylene Nanolassos via Copper‐Free Click Chemistry

Author

Schaub, Tobias A., primary, Zieleniewska, Anna, additional, Kaur, Ramandeep, additional, Minameyer, Martin, additional, Yang, Wudi, additional, Schüßlbauer, Christoph M., additional, Zhang, Lina, additional, Freiberger, Markus, additional, Zakharov, Lev N., additional, Drewello, Thomas, additional, Dral, Pavlo O., additional, Guldi, Dirk, additional, and Jasti, Ramesh, additional

Published
2023
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26. Reversible Hydrosulfide (HS–) Binding Using Exclusively C–H Hydrogen-Bonding Interactions in Imidazolium Hosts

Author

Davis, Amanda G., Zakharov, Lev N., and Pluth, Michael D.

Abstract

H2S is a physiologically important signaling molecule with complex roles in biology and exists primarily as HS–at physiological pH. Despite this anionic character, few investigations have focused on the molecular recognition and reversible binding of this important biological anion. Using a series of imidazole and imidazolium host molecules, we investigate the role of preorganization and charge on HS–binding. Using a macrocyclic bis-imidazolium receptor, we demonstrate the unexpected 2:1 host−guest binding of HS–, which was characterized both in solution and by X-ray crystallography. To the best of our knowledge, this is the first example of this binding stoichiometry for HS–binding. Moreover, the short C–H···S distances of 2.53, 2.54, 2.76, and 2.79 Å are well within the sum of the van der Waals radii of the interacting atoms, which is consistent with strong C–H···S interactions.

Published
2024
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39. Impact of Internal Charge Transfer on the Photophysical Properties of Pyridine‐Fused Phosphorus‐Nitrogen Heterocycles.

Author

McNeill, J. N., Kascoutas, Melanie A., Karas, Lucas J., Zakharov, Lev N., Wu, Judy I., Johnson, Darren W., and Haley, Michael M.

Subjects
ELECTRON density, HETEROCYCLIC compounds, CHARGE transfer, X-ray crystallography, LIGHT absorbance
Abstract

The phosphaquinolinone scaffold has been previously studied as a modular core for a variety of fluorescent species where use of substituent effects has focused on increasing or decreasing electron density in the core rings. We now report the synthesis and analysis of several pyridine‐containing phosphaquinolinone species exhibiting notable linear conjugation from the aryl‐substituent to electron‐withdrawing pyridyl nitrogen. Varying the nature of the aryl substituent from electron‐withdrawing to electron‐donating leads to the generation of an internal charge‐transfer (ICT) band in the absorbance spectrum, which becomes the dominant absorbance in terms of intensity in the most electron‐rich ‐NMe2 example. This heterocycle exhibits improved photophysical properties compared to others in the set including high quantum yield and considerably red‐shifted emission. The enhanced ICT can be observed in the X‐ray data where a rare example of molecule co‐planarity is observed. Computational data show increased localization of negative charge on the pyridyl nitrogen as the electron‐donating character of the aryl‐substituent increases. [ABSTRACT FROM AUTHOR]

Published
2023
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49. A Tale of Two Isomers: Enhanced Antiaromaticity/Diradical Character versus Deleterious Ring‐Opening of Benzofuran‐fused s‐Indacenes and Dicyclopenta[b,g]naphthalenes

Author

Barker, Joshua E., primary, Price, Tavis W., additional, Karas, Lucas J., additional, Kishi, Ryohei, additional, MacMillan, Samantha N., additional, Zakharov, Lev N., additional, Gómez‐García, Carlos J., additional, Wu, Judy I., additional, Nakano, Masayoshi, additional, and Haley, Michael M., additional

Published
2021
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