BINOL-based ditopic diphosphite ligands – synthesis, evaluation and regioselectivity optimization of catalytic hydroformylation by 23factorial design

Andreia F. Peixoto; Artur R. Abreu; Ana R. Almeida; Angela Neves; Paulo E. Abreu; Maria J.S.M. Moreno; Juan C. Bayón; Alberto A.C.C. Pais; Mariette M. Pereira

doi:10.2174/15701794113106660072

BINOL-based ditopic diphosphite ligands – synthesis, evaluation and regioselectivity optimization of catalytic hydroformylation by 2³factorial design

Andreia F. Peixoto, Artur R. Abreu, Ana R. Almeida, Angela Neves, Paulo E. Abreu, Maria J.S.M. Moreno, Juan C. Bayón, Alberto A.C.C. Pais, Mariette M. Pereira

Departament de Química

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6 Cites (Scopus)

Resum

© 2014 Bentham Science Publishers. BINOL-based diphosphite ligands containing oxygen or nitrogen heteroatoms are currently a new class of promising ligands for homogeneous catalysis. Herein we present a useful strategy to synthesize ditopic (R)-BINOL-based diphosphites, containing pyridyl or propyl ether bridges between BINOL fragments in high isolated yields (50-92 %). Their rhodium complexes were evaluated in styrene hydroformylation, in which a moderate regioselectivity for the branched aldehyde was observed. The addition of a lithium salt led to a significant increase in the regioselectivity (25 %) for the branched aldehyde. This interesting observation has been rationalized based on a full two-level factorial design with 3 factors, including pressure, temperature and the Li/Rh ratio, using Rh/10 as model catalyst. The improvement of the regioselectivity in the presence of lithium salts has been interpreted through31PNMR spectroscopy and semiempirical PM6 computational studies.

Idioma original	Anglès
Pàgines (de-a)	301-309
Revista	Current Organic Synthesis
Volum	11
Número	2
DOIs	https://doi.org/10.2174/15701794113106660072
Estat de la publicació	Publicada - 1 de gen. 2014

Accés al document

10.2174/15701794113106660072

Altres arxius i enllaços

https://www.scopus.com/pages/publications/84925018022

Com citar-ho

Peixoto, A. F., Abreu, A. R., Almeida, A. R., Neves, A., Abreu, P. E., Moreno, M. J. S. M., Bayón, J. C., Pais, A. A. C. C., & Pereira, M. M. (2014). BINOL-based ditopic diphosphite ligands – synthesis, evaluation and regioselectivity optimization of catalytic hydroformylation by 2³factorial design. Current Organic Synthesis, 11(2), 301-309. https://doi.org/10.2174/15701794113106660072

@article{851ec39b107c4f49927d3c49bc169ee2,

title = "BINOL-based ditopic diphosphite ligands – synthesis, evaluation and regioselectivity optimization of catalytic hydroformylation by 23factorial design",

abstract = "{\textcopyright} 2014 Bentham Science Publishers. BINOL-based diphosphite ligands containing oxygen or nitrogen heteroatoms are currently a new class of promising ligands for homogeneous catalysis. Herein we present a useful strategy to synthesize ditopic (R)-BINOL-based diphosphites, containing pyridyl or propyl ether bridges between BINOL fragments in high isolated yields (50-92 \%). Their rhodium complexes were evaluated in styrene hydroformylation, in which a moderate regioselectivity for the branched aldehyde was observed. The addition of a lithium salt led to a significant increase in the regioselectivity (25 \%) for the branched aldehyde. This interesting observation has been rationalized based on a full two-level factorial design with 3 factors, including pressure, temperature and the Li/Rh ratio, using Rh/10 as model catalyst. The improvement of the regioselectivity in the presence of lithium salts has been interpreted through31PNMR spectroscopy and semiempirical PM6 computational studies.",

keywords = "BINOL, Diphosphite, Ditopic, Hydroformylation, Lithium ion, Regioselectivity, Rhodium",

author = "Peixoto, \{Andreia F.\} and Abreu, \{Artur R.\} and Almeida, \{Ana R.\} and Angela Neves and Abreu, \{Paulo E.\} and Moreno, \{Maria J.S.M.\} and Bay{\'o}n, \{Juan C.\} and Pais, \{Alberto A.C.C.\} and Pereira, \{Mariette M.\}",

year = "2014",

month = jan,

day = "1",

doi = "10.2174/15701794113106660072",

language = "English",

volume = "11",

pages = "301--309",

journal = "Current Organic Synthesis",

issn = "1570-1794",

publisher = "Bentham Science Publishers B.V.",

number = "2",

}

Peixoto, AF, Abreu, AR, Almeida, AR, Neves, A, Abreu, PE, Moreno, MJSM, Bayón, JC, Pais, AACC & Pereira, MM 2014, 'BINOL-based ditopic diphosphite ligands – synthesis, evaluation and regioselectivity optimization of catalytic hydroformylation by 2³factorial design', Current Organic Synthesis, vol. 11, núm. 2, pàg. 301-309. https://doi.org/10.2174/15701794113106660072

BINOL-based ditopic diphosphite ligands – synthesis, evaluation and regioselectivity optimization of catalytic hydroformylation by 2³factorial design. / Peixoto, Andreia F.; Abreu, Artur R.; Almeida, Ana R. et al.
In: Current Organic Synthesis, Vol. 11, Núm. 2, 01.01.2014, pàg. 301-309.

Producció científica: Contribució a revista › Article › Recerca › Avaluat per experts

TY - JOUR

T1 - BINOL-based ditopic diphosphite ligands – synthesis, evaluation and regioselectivity optimization of catalytic hydroformylation by 23factorial design

AU - Peixoto, Andreia F.

AU - Abreu, Artur R.

AU - Almeida, Ana R.

AU - Neves, Angela

AU - Abreu, Paulo E.

AU - Moreno, Maria J.S.M.

AU - Bayón, Juan C.

AU - Pais, Alberto A.C.C.

AU - Pereira, Mariette M.

PY - 2014/1/1

Y1 - 2014/1/1

N2 - © 2014 Bentham Science Publishers. BINOL-based diphosphite ligands containing oxygen or nitrogen heteroatoms are currently a new class of promising ligands for homogeneous catalysis. Herein we present a useful strategy to synthesize ditopic (R)-BINOL-based diphosphites, containing pyridyl or propyl ether bridges between BINOL fragments in high isolated yields (50-92 %). Their rhodium complexes were evaluated in styrene hydroformylation, in which a moderate regioselectivity for the branched aldehyde was observed. The addition of a lithium salt led to a significant increase in the regioselectivity (25 %) for the branched aldehyde. This interesting observation has been rationalized based on a full two-level factorial design with 3 factors, including pressure, temperature and the Li/Rh ratio, using Rh/10 as model catalyst. The improvement of the regioselectivity in the presence of lithium salts has been interpreted through31PNMR spectroscopy and semiempirical PM6 computational studies.

AB - © 2014 Bentham Science Publishers. BINOL-based diphosphite ligands containing oxygen or nitrogen heteroatoms are currently a new class of promising ligands for homogeneous catalysis. Herein we present a useful strategy to synthesize ditopic (R)-BINOL-based diphosphites, containing pyridyl or propyl ether bridges between BINOL fragments in high isolated yields (50-92 %). Their rhodium complexes were evaluated in styrene hydroformylation, in which a moderate regioselectivity for the branched aldehyde was observed. The addition of a lithium salt led to a significant increase in the regioselectivity (25 %) for the branched aldehyde. This interesting observation has been rationalized based on a full two-level factorial design with 3 factors, including pressure, temperature and the Li/Rh ratio, using Rh/10 as model catalyst. The improvement of the regioselectivity in the presence of lithium salts has been interpreted through31PNMR spectroscopy and semiempirical PM6 computational studies.

KW - BINOL

KW - Diphosphite

KW - Ditopic

KW - Hydroformylation

KW - Lithium ion

KW - Regioselectivity

KW - Rhodium

UR - https://www.scopus.com/pages/publications/84925018022

U2 - 10.2174/15701794113106660072

DO - 10.2174/15701794113106660072

M3 - Article

SN - 1570-1794

VL - 11

SP - 301

EP - 309

JO - Current Organic Synthesis

JF - Current Organic Synthesis

IS - 2