Efficient alkyne homocoupling catalysed by copper immobilized on functionalized silica

Laurens van Gelderen; Gadi Rothenberg; V. Roberto Calderone; Karen Wilson; N. Raveendran Shiju

doi:10.1002/aoc.2933

Efficient alkyne homocoupling catalysed by copper immobilized on functionalized silica

Laurens van Gelderen
, Gadi Rothenberg
, V. Roberto Calderone
, Karen Wilson
, N. Raveendran Shiju

Research output: Contribution to journal › Article › peer-review

30 Citations (Scopus)

Abstract

Copper immobilized on a functionalized silica support is a good catalyst for the homocoupling of terminal alkynes. The so-called Glaser-Hay coupling reaction can be run in air with catalytic amounts of base. The copper catalyst is active for multiple substituted alkynes, in both polar and non-polar solvents, with good to excellent yields (75-95%). Depending on the alkyne, full conversion can be achieved within 3-24 h. The catalyst was characterized by TGA, inductively coupled plasma and X-ray photoelectron spectroscopy. Leaching tests confirm that the catalyst is and remains heterogeneous. Importantly, the overall reaction requires only alkyne and oxygen (in this case, air) as reagents, making this a clean catalytic oxidative coupling reaction.

Original language	English
Pages (from-to)	23-27
Number of pages	5
Journal	Applied Organometallic Chemistry
Volume	27
Issue number	1
Early online date	3 Dec 2012
DOIs	https://doi.org/10.1002/aoc.2933
Publication status	Published - Jan 2013

Keywords

heterogeneous catalysis
oxidative coupling
functionalized silica
copper

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10.1002/aoc.2933

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abstract = "Copper immobilized on a functionalized silica support is a good catalyst for the homocoupling of terminal alkynes. The so-called Glaser-Hay coupling reaction can be run in air with catalytic amounts of base. The copper catalyst is active for multiple substituted alkynes, in both polar and non-polar solvents, with good to excellent yields (75-95\%). Depending on the alkyne, full conversion can be achieved within 3-24 h. The catalyst was characterized by TGA, inductively coupled plasma and X-ray photoelectron spectroscopy. Leaching tests confirm that the catalyst is and remains heterogeneous. Importantly, the overall reaction requires only alkyne and oxygen (in this case, air) as reagents, making this a clean catalytic oxidative coupling reaction.",

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T1 - Efficient alkyne homocoupling catalysed by copper immobilized on functionalized silica

AU - van Gelderen, Laurens

AU - Rothenberg, Gadi

AU - Roberto Calderone, V.

AU - Wilson, Karen

AU - Raveendran Shiju, N.

PY - 2013/1

Y1 - 2013/1

N2 - Copper immobilized on a functionalized silica support is a good catalyst for the homocoupling of terminal alkynes. The so-called Glaser-Hay coupling reaction can be run in air with catalytic amounts of base. The copper catalyst is active for multiple substituted alkynes, in both polar and non-polar solvents, with good to excellent yields (75-95%). Depending on the alkyne, full conversion can be achieved within 3-24 h. The catalyst was characterized by TGA, inductively coupled plasma and X-ray photoelectron spectroscopy. Leaching tests confirm that the catalyst is and remains heterogeneous. Importantly, the overall reaction requires only alkyne and oxygen (in this case, air) as reagents, making this a clean catalytic oxidative coupling reaction.

AB - Copper immobilized on a functionalized silica support is a good catalyst for the homocoupling of terminal alkynes. The so-called Glaser-Hay coupling reaction can be run in air with catalytic amounts of base. The copper catalyst is active for multiple substituted alkynes, in both polar and non-polar solvents, with good to excellent yields (75-95%). Depending on the alkyne, full conversion can be achieved within 3-24 h. The catalyst was characterized by TGA, inductively coupled plasma and X-ray photoelectron spectroscopy. Leaching tests confirm that the catalyst is and remains heterogeneous. Importantly, the overall reaction requires only alkyne and oxygen (in this case, air) as reagents, making this a clean catalytic oxidative coupling reaction.

KW - heterogeneous catalysis

KW - oxidative coupling

KW - functionalized silica

KW - copper

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JO - Applied Organometallic Chemistry

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Efficient alkyne homocoupling catalysed by copper immobilized on functionalized silica

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Keywords

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