值得注意的是,该方法可应用于生物活性化合物如desipramine和 norverapamil的官能团化(11和12)。此外,不同的环状与非环状二级烷基亲电试剂同样具有良好的普适性,以50-99%的产率得到产物13-29。值得注意的是, 这种铜催化合成叔胺的方法与相应酮的...
索鎏敏/陈立泉Nat. Chem.:二氧化碳形成的水相使电解质回到水包盐制度 超浓缩盐水电解质使高压水电池成为可能,但代价是成本高和一些不利影响,包括高粘性、低导电性和缓慢的动力学。在这里,我们观察到二氧化碳和TFSI阴离子在水中的浓度依...
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J. Am. Chem. Soc.63, 3083–3090 (1941). Stauffer, D. & Aharony, A. Introduction to Percolation Theory (CRC, 2018). Broadbent, S. R. & Hammersley, J. M. Percolation processes: I. crystals and mazes. Math. Proc. Camb. ...
作为直接捕捉“修饰调控酶—底物”动态互作策略的概念性验证,陈小华、谭敏佳团队基于前期发展的化学生物学工具(Chem2019,5, 2955;Nat. Commun.2020,11, 5472;Nat. Chem.2023,15, 803),发展了一种在活细胞中直接捕捉赖氨酸酰基化修饰...
4. Angew. Chem.Int. Ed.:水系锌离子电池无枝晶锌负极的界面设计 水系锌离子电池由于其低成本和高安全性,最近在大型储能系统中发展迅速,成为有前途的储能设备。同时,抑制锌枝晶生长的研究已引起广泛关注,以提高电池的寿命和可逆性。本文...
J. Am. Chem. Soc.63, 3083–3090 (1941). Stauffer, D. & Aharony, A. Introduction to Percolation Theory (CRC, 2018). Broadbent, S. R. & Hammersley, J. M. Percolation processes: I. crystals and mazes. Math. Proc. Camb....
Chem. Eng. J. 2016, 287, 381–389. [CrossRef] 23. Fujioka, T.; Khan, S.J.; McDonald, J.A.; Nghiem, L.D. Nanofiltration of trace organic chemicals: A comparison between ceramic and polymeric membranes. Sep. Purif. Technol. 2014, 136, 258–264. [CrossRef] 24. Mansas, C.; ...