How space-filling is a pyridine lone pair?

Mazzanti A.; Lunazzi L.; Lepri S.; Ruzziconi R.; Schlosser M.

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How space-filling is a pyridine lone pair?

机译：吡啶孤对如何充满空间？

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The torsional barriers of 2′-substituted 2-arylpyridines have been probed experimentally (by using dynamic NMR spectroscopy) and computationally (by using density functional theory). Due to the compressibility of the lone pair, the torsional barriers of the arylpyridines are up to 4.2 kcal/mol smaller than those of the carba-analogous biphenyls. Furthermore, the ground states of the 2-arylpyridines are less twisted than those of the biphenyls. Finally, due to an out-of-collinearity distortion, the intramolecular repulsion is attenuated in both rotational transition states, in the syn coplanar conformer (in which the pyridine nitrogen and the substituent R face each other) and in the anti coplanar conformer (in which they are on opposite sides of the molecule).

机译：已通过实验（通过使用动态NMR光谱）和计算（通过使用密度泛函理论）探测了2'-取代的2-芳基吡啶的扭转屏障。由于孤对的可压缩性，芳基吡啶的扭转势垒比类似氨基甲酸二苯酯的扭转势垒小4.2 kcal / mol。此外，2-芳基吡啶的基态比联苯的基态扭曲少。最后，由于共线性外的畸变，在顺共平面构象体中（吡啶氮和取代基R相互面对）和反共平面构象体（在它们位于分子的相对两侧）。

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来源
《European journal of organic chemistry》 |2011年第33期|共7页
作者
Mazzanti A.; Lunazzi L.; Lepri S.; Ruzziconi R.; Schlosser M.;
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正文语种 eng
中图分类有机化学;
关键词
Biaryls; Density functional calculations; NMR spectroscopy; Steric hindrance; Torsional energy diagrams;

机译：联芳基;密度泛函计算;核磁共振光谱;位阻;扭转能图;

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1. How space-filling is a pyridine lone pair? [J] . Mazzanti A., Lunazzi L., Lepri S., European journal of organic chemistry . 2011,第33期

机译：吡啶孤对如何充满空间？
2. Structure of a dinuclear cadmium complex with 2,2′-bipyridine, monodentate nitrate and 3-carboxy-6-methylpyridine-2-carboxylate ligands: intramolecular carbonyl(lone pair)⋯π(ring) and nitrate(π)⋯π(ring) interactions [J] . Granifo J., Suarez S., Baggio R. Acta Crystallographica Section E: Crystallographic Communications . 2015,第8期

机译：具有2,2'-联吡啶，硝酸单齿和3-羧基-6-甲基吡啶-2-羧酸酯配体的双核镉配合物的结构：分子内羰基（孤对）⋯π（环）和硝酸盐（π）⋯π（环））互动
3. Second-Harmonic Generation and Photoluminescence Properties of Sn(II)- and Bi(III)-Based Lone Pair Cation-Pyridine Dicarboxylate Coordination Compounds [J] . Qi Hai-Xin, Jo Hongil, Chen Xinglong, Inorganic Chemistry: A Research Journal that Includes Bioinorganic, Catalytic, Organometallic, Solid-State, and Synthetic Chemistry and Reaction Dynamics . 2020,第16期

机译：SN（II） - 和Bi（III）的二谐发电和光致发光性质 - 基于孤牌溶液 - 吡啶二羧酸甲酯配位化合物
4. Donor-Acceptor Pair Luminescence of P-AI and N-AI Pairs in 3C-SiC and the lonization Energy of the P Donor [C] . I.G. lvanov, A. Henry, Fei Yan, Silicon carbide and related materials 2010 . 2011

机译：3C-SiC中P-AI和N-AI对的供体-受体对发光和P供体的电离能
5. Lanthanides, Lanterns, and Lone Pairs: Computational Studies of Inorganic Complexes [D] . Hyre, Ariel Sarah. 2020

机译：镧系元素，灯笼和孤立对：无机复合物的计算研究
6. Structure of a dinuclear cadmium complex with 22′-bipyridine monodentate nitrate and 3-carboxy-6-methylpyridine-2-carboxylate ligands: intramolecular carbonyl(lone pair)⋯π(ring) and nitrate(π)⋯π(ring) interactions [O] . Juan Granifo, Sebastián Suarez, Ricardo Baggio 2015

机译：具有22-联吡啶硝酸单齿和3-羧基-6-甲基吡啶-2-羧酸酯配体的双核镉配合物的结构：分子内羰基（孤对）⋯π（环）和硝酸盐（π）⋯π（环））互动
7. Janus head type lone pair–π–lone pair and S⋯F⋯S interactions in retaining hexafluorobenzene [O] . Sonam Mehrotra, Raja Angamuthu 2016

机译：Janus Head型孤立对 - π-leone对保持六氟苯的相互作用
8. Ion Chemistry of Cyanides and Isocyanides. 1. The Carbon Lone Pair as Proton Acceptor: Proton Affinities of Isocyanides. Alkyl Cation Affinities of N, O, and C Lone-Pair Donors [R] . Mautner, M. M., Karpas, Z., Deakyne, C. A. 1986

机译：氰化物和异氰化物的离子化学。 1.碳孤对作为质子受体：异氰化物的质子亲和力。 N，O和C孤对子供体的烷基阳离子亲和力

How space-filling is a pyridine lone pair?

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