James D. Nobbs, Dillon Wei Peng Tay, Yoon Hui Yeap, Yong Lun Tiong, Suming Ye, Srinivasulu Aitipamula, Cun Wang, Choon Boon Cheong and Martin van Meurs
{"title":"二恶磷双环辛烷:来自三(羟甲基)膦的小笼状膦","authors":"James D. Nobbs, Dillon Wei Peng Tay, Yoon Hui Yeap, Yong Lun Tiong, Suming Ye, Srinivasulu Aitipamula, Cun Wang, Choon Boon Cheong and Martin van Meurs","doi":"10.1039/D3DT02577B","DOIUrl":null,"url":null,"abstract":"<p >Dioxaphosphabicyclo[2.2.2]octanes (<strong>L1–L4</strong>) have been prepared in a one-pot reaction from tris(hydroxymethyl)phosphine and various α,β-unsaturated ketones. The non-volatile phosphines oxidise very slowly in air. They possess highly upfield <small><sup>31</sup></small>P chemical shifts (−59 to −70 ppm), small cone angles (121–140°) and a similar electronic parameter to PPh<small><sub>3</sub></small>. Reaction of <strong>L1</strong> with [Rh(acac)(CO)<small><sub>2</sub></small>] gave the complex [Rh(acac)(CO)(<strong>L1</strong>)] with a <em>ν</em><small><sub>(C<img>O)</sub></small> of 1981.5 cm<small><sup>−1</sup></small>, whereas reaction <strong>L1</strong> with [Rh(CO)<small><sub>2</sub></small>Cl]<small><sub>2</sub></small> gave [Rh(CO)(<strong>L1</strong>)<small><sub>2</sub></small>Cl] with a <em>ν</em><small><sub>(C<img>O)</sub></small> of 1979.9 cm<small><sup>−1</sup></small>, remarkably similar to the CO stretching frequencies reported for analogous PPh<small><sub>3</sub></small> complexes. The cage phosphines were explored as ligands in rhodium catalysed hydroformylation of 1-octene. All of the ligands gave a linear selectivity to <em>n</em>-nonanal of 68%, regardless of the substituents. However the ligand substituents had a significant effect on the catalyst activity, with increased steric bulk around the coordination environment giving a three-fold increase in aldehyde yield. The phosphines undergo ligand subsitution with [Pd(MeCN)<small><sub>2</sub></small>Cl<small><sub>2</sub></small>] forming square planar <em>trans</em>-[Pd(L)<small><sub>2</sub></small>Cl<small><sub>2</sub></small>] complexes. Subsequent reduction with hydrazine furnishes homoleptic tetravalent [Pd(<strong>L1</strong>)<small><sub>4</sub></small>] which was applied as a catalyst in Suzuki–Miyaura couplings, furnishing the C–C coupled products in moderate yields.</p>","PeriodicalId":71,"journal":{"name":"Dalton Transactions","volume":" 47","pages":" 17954-17965"},"PeriodicalIF":3.5000,"publicationDate":"2023-11-07","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Dioxaphosphabicyclooctanes: small caged phosphines from tris(hydroxymethyl)phosphine†\",\"authors\":\"James D. Nobbs, Dillon Wei Peng Tay, Yoon Hui Yeap, Yong Lun Tiong, Suming Ye, Srinivasulu Aitipamula, Cun Wang, Choon Boon Cheong and Martin van Meurs\",\"doi\":\"10.1039/D3DT02577B\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p >Dioxaphosphabicyclo[2.2.2]octanes (<strong>L1–L4</strong>) have been prepared in a one-pot reaction from tris(hydroxymethyl)phosphine and various α,β-unsaturated ketones. The non-volatile phosphines oxidise very slowly in air. They possess highly upfield <small><sup>31</sup></small>P chemical shifts (−59 to −70 ppm), small cone angles (121–140°) and a similar electronic parameter to PPh<small><sub>3</sub></small>. Reaction of <strong>L1</strong> with [Rh(acac)(CO)<small><sub>2</sub></small>] gave the complex [Rh(acac)(CO)(<strong>L1</strong>)] with a <em>ν</em><small><sub>(C<img>O)</sub></small> of 1981.5 cm<small><sup>−1</sup></small>, whereas reaction <strong>L1</strong> with [Rh(CO)<small><sub>2</sub></small>Cl]<small><sub>2</sub></small> gave [Rh(CO)(<strong>L1</strong>)<small><sub>2</sub></small>Cl] with a <em>ν</em><small><sub>(C<img>O)</sub></small> of 1979.9 cm<small><sup>−1</sup></small>, remarkably similar to the CO stretching frequencies reported for analogous PPh<small><sub>3</sub></small> complexes. The cage phosphines were explored as ligands in rhodium catalysed hydroformylation of 1-octene. All of the ligands gave a linear selectivity to <em>n</em>-nonanal of 68%, regardless of the substituents. However the ligand substituents had a significant effect on the catalyst activity, with increased steric bulk around the coordination environment giving a three-fold increase in aldehyde yield. The phosphines undergo ligand subsitution with [Pd(MeCN)<small><sub>2</sub></small>Cl<small><sub>2</sub></small>] forming square planar <em>trans</em>-[Pd(L)<small><sub>2</sub></small>Cl<small><sub>2</sub></small>] complexes. 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Dioxaphosphabicyclooctanes: small caged phosphines from tris(hydroxymethyl)phosphine†
Dioxaphosphabicyclo[2.2.2]octanes (L1–L4) have been prepared in a one-pot reaction from tris(hydroxymethyl)phosphine and various α,β-unsaturated ketones. The non-volatile phosphines oxidise very slowly in air. They possess highly upfield 31P chemical shifts (−59 to −70 ppm), small cone angles (121–140°) and a similar electronic parameter to PPh3. Reaction of L1 with [Rh(acac)(CO)2] gave the complex [Rh(acac)(CO)(L1)] with a ν(CO) of 1981.5 cm−1, whereas reaction L1 with [Rh(CO)2Cl]2 gave [Rh(CO)(L1)2Cl] with a ν(CO) of 1979.9 cm−1, remarkably similar to the CO stretching frequencies reported for analogous PPh3 complexes. The cage phosphines were explored as ligands in rhodium catalysed hydroformylation of 1-octene. All of the ligands gave a linear selectivity to n-nonanal of 68%, regardless of the substituents. However the ligand substituents had a significant effect on the catalyst activity, with increased steric bulk around the coordination environment giving a three-fold increase in aldehyde yield. The phosphines undergo ligand subsitution with [Pd(MeCN)2Cl2] forming square planar trans-[Pd(L)2Cl2] complexes. Subsequent reduction with hydrazine furnishes homoleptic tetravalent [Pd(L1)4] which was applied as a catalyst in Suzuki–Miyaura couplings, furnishing the C–C coupled products in moderate yields.
期刊介绍:
Dalton Transactions is a journal for all areas of inorganic chemistry, which encompasses the organometallic, bioinorganic and materials chemistry of the elements, with applications including synthesis, catalysis, energy conversion/storage, electrical devices and medicine. Dalton Transactions welcomes high-quality, original submissions in all of these areas and more, where the advancement of knowledge in inorganic chemistry is significant.