磷杂乙炔醇钠

磷杂乙炔醇钠
识别
CAS号	174322-77-1
SMILES	C(#P)[O-].[Na+];
性质
化学式	NaOCP
摩尔质量	81.975 g·mol⁻¹
相关物质
其他阴离子	氰酸钠
相关化学品	磷杂乙炔
	若非注明，所有数据均出自标准状态（25 ℃，100 kPa）下。

磷杂乙炔醇钠（英语：Sodium Phosphaethynolate）是一种离子化合物，化学式为NaOCP。该化合物中的OCP^-离子呈直线形。^[1]

制备

可由NaPH₂·xNaO^tBu和Fe(CO)₅反应制备^[2]：

NaPH₂·xNaO^tBu + Fe(CO)₅ —^THF→ NaOCP + Na₂[Fe(CO)₄]

产生的Na₂[Fe(CO)₄]和CO₂反应，可以得到Fe(CO)₅回收。

当Fe(CO)₅和单独的NaPH₂反应时，只有很少的PH₂^-转化为NaOCP，大部分的含磷产物是PH₃。其他产物还包括Na[HFe(CO)₄]^[3]、Na₂[Fe₂(CO)₈]、Na[(H₂P)Fe(CO)₄]等，反应还会有剩余的Fe(CO)₅^[4]。若将该反应的产物在室温、常压的氩气中放置9天，会得到{[Fe(CO)₄]₂(μ-PH₂)}Na^[5]和一种未知化合物（³¹P NMR δ=46.36mm(J_PP=153.5Hz),δ=164.48ppm(J_PP=153.5Hz)）。

NaPH₂和CO在DME中加压反应，能够得到NaOCP的加合物，并放出氢气：^[6]

NaPH₂ + CO —^{110bar, 80℃}→ [NaOCP·(dme)₂]₂ + H₂

性质

磷杂乙炔醇钠和二氧化碳反应，可以形成加合物Na₂P₂C₃O₄，该加合物中含有P₂C₃O₄^2-离子：^[7]

磷杂乙炔醇钠和三甲基卤化硅反应，可以得到五元环的化合物：

NaOCP中OCP^-的氧可以通过低温下和CS₂反应，被硫取代，形成SCP^-。而和SO₂或I₂反应时，只会得到五元环的化合物（P₄C₄O₄^2-）：^[8]

用途

磷杂乙炔醇钠可用于合成有机磷化合物^[7]，如与异氰酸酯反应，聚合成环。^[9]

参考文献

^ Tamás Veszprémi, Tibor Pasinszki, Miklós Fehér. Structures of Alkali Metal Pseudohalides: LiOCP, NaOCP, LiSCP, NaSCP. Inorg. Chem., 1996, 35 (7), pp 2132–2135. DOI: 10.1021/ic950865r
^ Alkoxide Packaged Sodium Dihydrogenphosphide: Synthesis and Reactivity （页面存档备份，存于互联网档案馆）. Coenradus JH Hendriksen. Dissertation ETH Nr. 20148, 2012 Zürich
^ Phillip A. Kongshaug, Roy G. Miller. Lewis acid assisted reactions of N-acylimidazoles with transition-metal nucleophiles. A route to formyl transition-metal complexes. Organometallics, 1987, 6 (2), pp 372–378 DOI: 10.1021/om00145a022
^ Mann, B. E. In Advances in Organometallic Chemistry; Stone, F. G. A., Robert, W., Eds.; Academic Press: 1974; 12, pp 135
^ Anne Marie. Caminade, Jean Pierre. Majoral, Michel. Sanchez, et al. Reaction of [PPh₄][HFe(CO)₄] with dichlorophosphines: a new entry to classical and nonclassical functionalized phosphorus complexes. Organometallics, 1987, 6 (7), pp 1459–1465 DOI: 10.1021/om00150a016
^ F. F. Puschmann, D. Stein, D. Heift, C. Hendriksen, Z. A. Gál, H.-F. Grützmacher and H. Grützmacher, Angew. Chem. Int. Ed., 2011, 50, 8420-8423
^ ^7.0 ^7.1 Dominikus Heift. Sodium Phosphaethyolate as a Building Block （页面存档备份，存于互联网档案馆）. Dissertation ETH No.21640, 2013
^ G. Becker, G. Heckmann, K. Hübler and W. Schwarz, Z. anorg. allg. Chem., 1995, 621, 34- 46
^ Dominikus Heift, Zoltán Benkő, Hansjörg Grützmacher, et al. Cyclo-oligomerization of isocyanates with Na(PH₂) or Na(OCP) as “P⁻” anion sources （页面存档备份，存于互联网档案馆）. Chem. Sci., 2015, (6): 4017-4024. DOI: doi:10.1039/C5SC00963D

[1] Tamás Veszprémi, Tibor Pasinszki, Miklós Fehér. Structures of Alkali Metal Pseudohalides: LiOCP, NaOCP, LiSCP, NaSCP. Inorg. Chem., 1996, 35 (7), pp 2132–2135. DOI: 10.1021/ic950865r

[2] Alkoxide Packaged Sodium Dihydrogenphosphide: Synthesis and Reactivity （页面存档备份，存于互联网档案馆）. Coenradus JH Hendriksen. Dissertation ETH Nr. 20148, 2012 Zürich

[3] Phillip A. Kongshaug, Roy G. Miller. Lewis acid assisted reactions of N-acylimidazoles with transition-metal nucleophiles. A route to formyl transition-metal complexes. Organometallics, 1987, 6 (2), pp 372–378 DOI: 10.1021/om00145a022

[4] Mann, B. E. In Advances in Organometallic Chemistry; Stone, F. G. A., Robert, W., Eds.; Academic Press: 1974; 12, pp 135

[5] Anne Marie. Caminade, Jean Pierre. Majoral, Michel. Sanchez, et al. Reaction of [PPh₄][HFe(CO)₄] with dichlorophosphines: a new entry to classical and nonclassical functionalized phosphorus complexes. Organometallics, 1987, 6 (7), pp 1459–1465 DOI: 10.1021/om00150a016

[6] F. F. Puschmann, D. Stein, D. Heift, C. Hendriksen, Z. A. Gál, H.-F. Grützmacher and H. Grützmacher, Angew. Chem. Int. Ed., 2011, 50, 8420-8423

[heift-7] 7.0 ^7.1 Dominikus Heift. Sodium Phosphaethyolate as a Building Block （页面存档备份，存于互联网档案馆）. Dissertation ETH No.21640, 2013

[8] G. Becker, G. Heckmann, K. Hübler and W. Schwarz, Z. anorg. allg. Chem., 1995, 621, 34- 46

[9] Dominikus Heift, Zoltán Benkő, Hansjörg Grützmacher, et al. Cyclo-oligomerization of isocyanates with Na(PH₂) or Na(OCP) as “P⁻” anion sources （页面存档备份，存于互联网档案馆）. Chem. Sci., 2015, (6): 4017-4024. DOI: doi:10.1039/C5SC00963D

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