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   https://doi.org/10.1021/acs.orglett.3c01107  

   Guo, Weijie; Ding, Wanjian; Yao, Yuqing; Rajca, Suchada; Li, Qiaolian; Jiang, Hua; Rajca, Andrzej; Wang, Ying (June 2023, Organic Letters)
2. A Tool to Inform Hepatitis C Elimination: A Case for Hepatitis C Elimination in China

   https://doi.org/10.1002/cld.1109  

   Adee, Madeline; Zhuo, Yueran; Zhan, Tiannan; Chen, Qiushi; Toumi, Asmae; Ayer, Turgay; Nwankwo, Chizoba; Zhong, Huaiyang; Puenpatom, Amy; Chhatwal, Jagpreet (April 2021, Clinical Liver Disease)
3. C11Tester: A race detector for C/C++ atomics

   https://doi.org/10.1145/3445814.3446711  

   Luo, Weiyu; Demsky, Brian (April 2021, Proceedings of the 26th ACM International Conference on Architectural Support for Programming Languages and Operating Systems)

   null (Ed.)

   Writing correct concurrent code that uses atomics under the C/C++ memory model is extremely difficult. We present C11Tester, a race detector for the C/C++ memory model that can explore executions in a larger fragment of the C/C++ memory model than previous race detector tools. Relative to previous work, C11Tester's larger fragment includes behaviors that are exhibited by ARM processors. C11Tester uses a new constraint-based algorithm to implement modification order that is optimized to allow C11Tester to make decisions in terms of application-visible behaviors. We evaluate C11Tester on several benchmark applications, and compare C11Tester's performance to both tsan11rec, the state of the art tool that controls scheduling for C/C++; and tsan11, the state of the art tool that does not control scheduling. 

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4. Structural proof of a [C–F–C]+ fluoronium cation

   https://doi.org/10.1038/s41467-021-25592-6  

   Hoffmann, Kurt F.; Wiesner, Anja; Müller, Carsten; Steinhauer, Simon; Beckers, Helmut; Kazim, Muhammad; Pitts, Cody Ross; Lectka, Thomas; Riedel, Sebastian (September 2021, Nature Communications)

   Abstract Organic fluoronium ions can be described as positively charged molecules in which the most electronegative and least polarizable element fluorine engages in two partially covalent bonding interactions to two carbon centers. While recent solvolysis experiments and NMR spectroscopic studies on a metastable [C–F–C]⁺fluoronium ion strongly support the divalent fluoronium structure over the alternative rapidly equilibrating classical carbocation, the model system has, to date, eluded crystallographic analysis to confirm this phenomenon in the solid state. Herein, we report the single crystal structure of a symmetrical [C–F–C]⁺fluoronium cation. Besides its synthesis and crystallographic characterization as the [Sb₂F₁₁]⁻salt, vibrational spectra are discussed and a detailed analysis concerning the nature of the bonding situation in this fluoronium ion and its heavier halonium homologues is performed, which provides detailed insights on this molecular structure. 

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5. Beyond C–C coupling in CO2 reduction

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   Xu, Yuting; Che, Fanglin (February 2024, Nature Chemical Engineering)