Part I: The Development of the Catalytic Wittig Reaction

O’Brien, Christopher J.; Nixon, Zachary S.; Holohan, Andrew J.; Kunkel, Stephen R.; Tellez, Jennifer L.; Doonan, Bryan J.; Coyle, Emma E.; Lavigne, Florie; Kang, Lauren J.; Przeworski, Katherine C.

doi:10.1002/chem.201301444

Cited by 100 publications

(48 citation statements)

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“…Based on the experimental details presented in Table 1 (6). Based on the experimental details presented in Table 3 (entry 1), yield: 91%; colorless oil; 31 Dimethyl-phenylphosphine (8). Based on the experimental details presented in Table 4 General Procedure for the Deoxygenation of 1-Phenyl-3-methyl-3-phospholene 1-Oxide (9), and for the Trapping of the Phosphine (10) so Obtained A mixture of 0.11 g (0.55 mmol) of 1-phenyl-3methyl-3-phospholene 1-oxide (9) and 0.068 mL (0.55 mmol) of PS or 0.19 mL (1.1 mmol) of TMDS or 0.042 mL (1.1 mmol) of PMHS was heated under nitrogen atmosphere at the appropriate temperature in a glass bomb immersed in an oil bath or in a commercial MW vial in the MW oven for the appropriate time.…”

Section: )mentioning

confidence: 99%

“…It has been a challenge to develop catalytic versions of these reactions involving the recycling of the waste cyclic phosphine oxides in in situ reduction [6]. O wide range of phosphine oxides including mainly phospholene-and phospholane derivatives [7][8][9][10]. In these cases, the phosphoranes were formed in situ by the quaternization of the phosphine by the α-haloacetic ester [7][8][9] or even an unactivated alkyl halide [8], followed by dehydrohalogenation by Na 2 CO 3 [7,9], diisopropylethylamine [8], or in situ generated t BuONa [10].…”

Section: Introductionmentioning

confidence: 99%

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The Deoxygenation of Phosphine Oxides under Green Chemical Conditions

2014

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The deoxygenation of a few diaryl‐phenylphosphine oxides, dimethyl‐phenylphosphine oxide, and 3‐methyl‐1‐phenyl‐3‐phospholene 1‐oxide was studied by phenylsilane, tetramethyldisiloxane (TMDS), and polymethylhydrosiloxane (PMHS) under conventional or microwave (MW) heating, in toluene or in the absence of any solvent at different temperatures. It was found that the deoxygenation with TMDS or PMHS under MW and solvent‐free conditions may be the method of choice and provides a green chemical approach.

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Section: )mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

The Deoxygenation of Phosphine Oxides under Green Chemical Conditions

2014

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“…These problems can be eliminated by applying the phosphine in a catalytic amount, and by insuring the in situ reduction of the phosphine oxide formed. This was first elaborated for the Wittig reaction using silanes as the reducing agent by O'Brien . Since then, the catalytic Wittig reaction has become a hot topic and found a number of applications .…”

Section: Introductionmentioning

confidence: 99%

A study on the deoxygenation of trialkyl‐, dialkyl‐phenyl‐ and alkyl‐diphenyl phosphine oxides by hydrosilanes

Kovács

Urbanics

Csatlós

et al. 2017

Heteroatom Chemistry

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The deoxygenation of 1‐alkyl‐3‐methyl‐3‐phospholene 1‐oxides, which may be regarded as trialkyl phosphine oxides (R3PO), and the reduction of dialkyl‐phenylphosphine oxides (R2PhPO) and methyl‐diphenylphosphine oxide (MePh2PO) have been elaborated by applying user‐friendly silanes, such as tetramethyldisiloxane (>SiH–O–HSi<) and polymethylhydrosiloxane ((O–SiH)n) under solvent‐free, catalyst‐free, and microwave (MW)‐assisted conditions. New silanes of type Ar2SiH2, alkyl2SiH2, and Ar3SiH were also applied in a few cases. The reactivity of the phosphine oxides and the silanes could be mapped on the basis of our experimental data.

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“…Subsequently they reported that the soluble organic base N , N -diisopropylethylamine was a good replacement for sodium carbonate in such reactions [19], and that the addition of 4-nitrobenzoic acid facilitated the phosphine oxide reduction step using phenylsilane (PhSiH 3 ) instead of diphenylsilane [20]. Using this combination of 4-nitrobenzoic acid and phenylsilane for phosphine oxide reduction allowed reactions starting with phosphine oxide 24 (Fig.…”

Section: Reviewmentioning

confidence: 99%

Catalytic Wittig and aza-Wittig reactions

Lao

Toy

2016

Beilstein J. Org. Chem.

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This review surveys the literature regarding the development of catalytic versions of the Wittig and aza-Wittig reactions. The first section summarizes how arsenic and tellurium-based catalytic Wittig-type reaction systems were developed first due to the relatively easy reduction of the oxides involved. This is followed by a presentation of the current state of the art regarding phosphine-catalyzed Wittig reactions. The second section covers the field of related catalytic aza-Wittig reactions that are catalyzed by both phosphine oxides and phosphines.

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Part I: The Development of the Catalytic Wittig Reaction

Cited by 100 publications

References 69 publications

The Deoxygenation of Phosphine Oxides under Green Chemical Conditions

The Deoxygenation of Phosphine Oxides under Green Chemical Conditions

A study on the deoxygenation of trialkyl‐, dialkyl‐phenyl‐ and alkyl‐diphenyl phosphine oxides by hydrosilanes

Catalytic Wittig and aza-Wittig reactions

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