More Like this

1. Orbital analysis of bonding in diarylhalonium salts and relevance to periodic trends in structure and reactivity

   https://doi.org/10.1039/d2sc02332f  

   Karandikar, Shubhendu S.; Bhattacharjee, Avik; Metze, Bryan E.; Javaly, Nicole; Valente, Edward J.; McCormick, Theresa M.; Stuart, David R. (June 2022, Chemical Science)

   Diarylhalonium compounds provide new opportunities as reagents and catalysts in the field of organic synthesis. The three center, four electron (3c–4e) bond is a center piece of their reactivity, but structural variation among the diarylhaloniums, and in comparison with other λ 3 -iodanes, indicates that the model needs refinement for broader applicability. We use a combination of Density Functional Theory (DFT), Natural Bond Orbital (NBO) Theory, and X-ray structure data to correlate bonding and structure for a λ 3 -iodane and a series of diarylchloronium, bromonium, and iodonium salts, and their isoelectronic diarylchalcogen counterparts. This analysis reveals that the s-orbital on the central halogen atom plays a greater role in the 3c–4e bond than previously considered. Finally, we show that our revised bonding model and associated structures account for both kinetic and thermodynamic reactivity for both acyclic phenyl(mesityl)halonium and cyclic dibenzohalolium salts. 

   more » « less
2. Synthesis of 1,3-benzotellurazole derivatives from phenyl ureas and tellurium tetrachloride

   https://doi.org/10.1016/j.jorganchem.2024.123342  

   Gaborit, Killian M; Turner, Alanna K; Ponzo, Samantha R; Fronczek, Frank R; Junk, Thomas (October 2024, Journal of organometallic chemistry)

   A method has been developed to prepare previously inaccessible substituted 1,3-benzotellurazoles following an efficient two-step process, consisting of the tellurination of electron rich phenyl ureas with tellurium tetrachloride and subsequent ring closure of the resulting aryl tellurium trichlorides. Tellurination occurs regiospecifically ortho to the urea moiety due to intramolecular Te–O coordination, producing highly crystalline solids that are readily isolated in yields up to 83%. Subsequent ring closure, accomplished by heating with phosphorus trichloride and subsequent reduction with hydrazine hydrate, provides access to 1,3-benzotellurazole derivatives. Selected products were characterized by X-ray crystallography. 

   more » « less
3. Synthesis and characterization of 1,2,3,4-naphthalene and anthracene diimides

   https://doi.org/10.3762/bjoc.20.155  

   Bass, Adam D; Castellanos, Daniela; Calicdan, Xavier A; Cao, Dennis D (July 2024, Beilstein Journal of Organic Chemistry)

   We report the synthesis and characterization of naphthalene and anthracene scaffolds end-capped by cyclic imides. The solid-state structures of theN-phenyl derivatives, determined by X-ray crystallography, reveal changes in packing preference based on the number of aromatic rings in the core. The optical and electronic properties of the title compounds compare favorably with other previously described isomers and expand the toolbox of electron-deficient aromatic compounds available to organic materials chemists. 

   more » « less
4. Twisted Diindeno‐Fused Dibenzo[ a , h ]anthracene Derivatives and their Dianions

   https://doi.org/10.1002/anie.202307750  

   Gu, Yanwei; Torchon, Herdya S.; Zhu, Yikun; Wei, Zheng; Schollmeyer, Dieter; Wagner, Manfred; Ni, Yong; Wu, Zehua; Wu, Hao; Zhou, Yazhou; et al (July 2023, Angewandte Chemie International Edition)

   Abstract We report a facile synthesis of diindeno‐fused dibenzo[a,h]anthracene derivatives (DIDBA‐2Cl,DIDBA‐2Ph, andDIDBA‐2H)with different degrees of non‐planarity using three substituents (chloro, phenyl, and hydrogen) of various sizes. The planarization of their cores, as evidenced by the decreased end‐to‐end torsional angles, was confirmed by X‐ray crystallography. Their enhanced energy gaps with twisting were investigated by a combination of spectroscopic and electrochemical methods with density functional theory, which showed a transition from singlet open‐shell to closed‐shell configuration. Moreover, their doubly reduced states,DIDBA‐2Ph²⁻andDIDBA‐2H²⁻, were achieved by chemical reduction. The structures of dianions were identified by X‐ray crystallographic analysis, which elucidated that the electron charging further distorted the backbones. The electronic structure of the dianions was demonstrated by experimental and theoretical approaches, suggesting decreased energy gaps with larger non‐planarity, different from the neutral species. 

   more » « less
5. Evaluating the impact of X-ray damage on conformational heterogeneity in room-temperature (277 K) and cryo-cooled protein crystals

   https://doi.org/10.1107/S2059798322005939  

   Yabukarski, Filip; Doukov, Tzanko; Mokhtari, Daniel A.; Du, Siyuan; Herschlag, Daniel (August 2022, Acta Crystallographica Section D Structural Biology)

   Cryo-cooling has been nearly universally adopted to mitigate X-ray damage and facilitate crystal handling in protein X-ray crystallography. However, cryo X-ray crystallographic data provide an incomplete window into the ensemble of conformations that is at the heart of protein function and energetics. Room-temperature (RT) X-ray crystallography provides accurate ensemble information, and recent developments allow conformational heterogeneity (the experimental manifestation of ensembles) to be extracted from single-crystal data. Nevertheless, high sensitivity to X-ray damage at RT raises concerns about data reliability. To systematically address this critical issue, increasingly X-ray-damaged high-resolution data sets (1.02–1.52 Å resolution) were obtained from single proteinase K, thaumatin and lysozyme crystals at RT (277 K). In each case a modest increase in conformational heterogeneity with X-ray damage was observed. Merging data with different extents of damage (as is typically carried out) had negligible effects on conformational heterogeneity until the overall diffraction intensity decayed to ∼70% of its initial value. These effects were compared with X-ray damage effects in cryo-cooled crystals by carrying out an analogous analysis of increasingly damaged proteinase K cryo data sets (0.9–1.16 Å resolution). X-ray damage-associated heterogeneity changes were found that were not observed at RT. This property renders it difficult to distinguish real from artefactual conformations and to determine the conformational response to changes in temperature. The ability to acquire reliable heterogeneity information from single crystals at RT, together with recent advances in RT data collection at accessible synchrotron beamlines, provides a strong motivation for the widespread adoption of RT X-ray crystallography to obtain conformational ensemble information. 

   more » « less