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以色列希伯来大学Zackaria Nairoukh招收全奖博士生
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以色列耶路撒冷希伯来大学化学系zackaria nairoukh课题组硕士博士博士后招生,课题组新成立,资金充裕,待遇优厚,科研条件优良,有意者可直接邮件(z.nairoukh@mail.huji.ac.il )联系,研究方向为有机合成化学、有机氟化学、金属有机化学等。可能有很多同学对以色列的安全问题有顾虑,有问题的可以邮件联系课题组的另一个中国博士生(hao.ding@mail.huji.ac.il)。课题组主页:https://nairoukh.huji.ac.il/ are you a talented chemist with a passion for synthetic organic chemistry, organometallic chemistry, and methodology development? the nairoukh group at the hebrew university of jerusalem (huji) is seeking enthusiastic phd students and postdoctoral associates to join our cutting-edge research lab. we offer: • excellent research opportunities: engage in groundbreaking projects with a collaborative and diverse team. • top-notch infrastructure: work with advanced research facilities and resources. • dynamic location: experience jerusalem, one of the world's oldest and most beautiful cities. how to apply to inquire about joining our group, please email dr. zackaria nairoukh at z.nairoukh@mail.huji.ac.il with: • a detailed cv • a research summary, including your interests and expertise • contact information for referees Safety Note! We understand the challenges of relocating to Israel, especially given the current global context. Your safety is our top priority. Rest assured that Jerusalem is a safe and secure city, and we are committed to ensuring a positive experience for all our group members. We look forward to hearing from you! Representative publications 1. The Construction of Highly Substituted Piperidines via Dearomative Functionalization Reaction. M. Hu, H. Ding, W. Desnoo, D. J. Tantillo, Z. Nairoukh, Angew. Chem. Int. Ed. 2023, e202315108. 2. Brook Rearrangement as Trigger for Dearomatization Reaction: Synthesis of Non- Aromatic N-Heterocycles. R. Mondal, M. Agbaria, O. Cohen, Z. Nairoukh, Chem. Eur. J. 2023, e202303588. A preprint appeared in ChemRxiv, DOI:10.26434/chemrxiv-2023-9lvr2 3. Understanding the Conformational Behavior of Fluorinated Piperidines: The Origin of the Axial‐F Preference. Z. Nairoukh,* F. Strieth-Kalthoff, K. Bergander, F. Glorius*, Chem. Eur. J. 2020, DOI:10.1002/chem.202001355. 4. Towards Target-Oriented Arene Hydrogenation: A Strategic Transformation. M. Wiesenfeldt, Z. Nairoukh, T. Dalton, F. Glorius, Angew. Chem. Int. Ed. 2019, 58, 10460–10476. 5. The Formation of All-cis-(multi)Fluorinated Piperidines by a Dearomatization- Hydrogenation Process. Z. Nairoukh, M. Wollenburg, C. Schlepphorst, K. Bergander, F. Glorius, Nat. Chem. 2019, 11, 264–270. 6. Hydrogenation of Fluoroarenes: Direct Access to All-cis-(multi)Fluorinated Cycloalkanes. M. Wiesenfeldt, Z. Nairoukh, W. Li, F. Glorius, Science 2017, 357, 908–912. |
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