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1. Electron-impact excitation of the 5$$\varvec{^2\textbf{S}_{1/2} \rightarrow 5^2\textbf{P}_{1/2}}$$ and 5$$\varvec{^2\textbf{P}_{3/2}}$$ transitions in rubidium by 40 eV electrons: theory and experiment

   https://doi.org/10.1140/epjd/s10053-022-00413-7  

   Hamilton, K. R.; Zatsarinny, O.; Bartschat, K.; Predojević, B.; Šević, D.; Marinković, B. P.; Brunger, M. J. (May 2022, The European Physical Journal D)

   AbstractWe report on a series of detailed Breit-Pauli and Dirac B-spline R-matrix (DBSR) differential cross section (DCS) calculations for excitation of the$$5\,^2\textrm{S}_{1/2} \rightarrow 5\,^2\textrm{P}_{1/2}$$ $5{}^2{\text{S}}_{1/2}\to 5{}^2{\text{P}}_{1/2}$and$$5\,^2\textrm{S}_{1/2}\rightarrow 5\,^2\textrm{P}_{3/2}$$ $5{}^2{\text{S}}_{1/2}\to 5{}^2{\text{P}}_{3/2}$states in rubidium by 40 eV incident electrons. The early BP computations shown here were carried out with both 5 states and 12 states, while the DBSR models coupled 150 and 325 states, respectively. We also report corresponding results from a limited set of DCS measurements on the unresolved$$5\,^2\textrm{P}_{1/2,3/2}$$ $5{}^2{\text{P}}_{1/2,3/2}$states, with the experimental data being restricted to the scattered electron angular range 2–$$10^\circ $$ ${10}^{\circ }$. Typically, good agreement is found between our calculated and measured DCS for excitation of the unresolved$$5\,^2\textrm{P}_{1/2,3/2}$$ $5{}^2{\text{P}}_{1/2,3/2}$states, with best accord being found between the DBSR predictions and the measured data. The present theoretical and experimental results are also compared with predictions from earlier 40 eV calculations using the nonrelativistic Distorted-Wave Born Approximation and a Relativistic Distorted-Wave model. Graphic abstract 

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2. Copper(II) halide complexes of aminopyridines: Synthesis, structure, and magnetic behavior of neutral compounds of 5-IAP: (5-IAP)2CuCl2·H2O, [(5-IAP)2CuBr2]2, (5-IAP)2CuBr2 and (5-IAP)3CuCl2·nH2O (5IAP = 2-amino-5-iodopyridine)

   https://doi.org/10.1016/j.poly.2023.116562  

   Huynh, Nathan V.; Li, Lixin; Landee, Christopher P.; Dawe, Louise N.; Dickie, Diane A.; Turnbull, Mark M.; Wikaira, Jan L. (October 2023, Polyhedron)
3. Boron-tethered oxidopyrylium-based [5 + 2] cycloadditions

   https://doi.org/10.1016/j.tetlet.2022.154094  

   Corrie, Seth I.; Pearce, Aaron C.; Grabowski, Jacob P.; Randolph, Kee A.; Guo, Wentao; Tantillo, Dean J.; Andrew Mitchell, T. (September 2022, Tetrahedron Letters)
4. Improved Synthesis of 5-Ethylsulfonyl-2-methoxyaniline

   https://doi.org/10.1080/00304948.2022.2072154  

   Johnson, Hunter; Gleason, Cameron; Klug, Trevan; Schmid, Connor; Schioldager, Ryan; DiBernardo, Celine; Eagon, Scott (September 2022, Organic Preparations and Procedures International)
5. Hybrid DNA/RNA nanostructures with 2′-5′ linkages

   https://doi.org/10.1039/d0nr05846g  

   Chandrasekaran, Arun Richard; Mathivanan, Johnsi; Ebrahimi, Parisa; Vilcapoma, Javier; Chen, Alan A.; Halvorsen, Ken; Sheng, Jia (November 2020, Nanoscale)

   null (Ed.)

   Nucleic acid nanostructures with different chemical compositions have shown utility in biological applications as they provide additional assembly parameters and enhanced stability. The naturally occurring 2′-5′ linkage in RNA is thought to be a prebiotic analogue and has potential use in antisense therapeutics. Here, we report the first instance of DNA/RNA motifs containing 2′-5′ linkages. We synthesized and incorporated RNA strands with 2′-5′ linkages into different DNA motifs with varying number of branch points (a duplex, four arm junction, double crossover motif and tensegrity triangle motif). Using experimental characterization and molecular dynamics simulations, we show that hybrid DNA/RNA nanostructures can accommodate interspersed 2′-5′ linkages with relatively minor effect on the formation of these structures. Further, the modified nanostructures showed improved resistance to ribonuclease cleavage, indicating their potential use in the construction of robust drug delivery vehicles with prolonged stability in physiological conditions. 

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