Cooperative Aliphatic PNP Amido Pincer Ligands - Versatile Building Blocks for Coordination Chemistry and Catalysis

Schneider, Sven; Meiners, Jenni; Askevold, Bjorn

doi:10.1002/ejic.201100880

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Cooperative Aliphatic PNP Amido Pincer Ligands - Versatile Building Blocks for Coordination Chemistry and Catalysis

Author(s): Sven Schneider , Jenni Meiners , Bjorn Askevold

Publication date Created: January 2012

Publication date (Print): January 22 2012

Journal: European Journal of Inorganic Chemistry

Publisher: Wiley

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Ammonia-borane and related compounds as dihydrogen sources.

Anne Staubitz, Alasdair Robertson, Ian Manners (2010)

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Biologically inspired oxidation catalysis.

Lawrence Que, William Tolman (2008)

The development of processes for selective hydrocarbon oxidation is a goal that has long been pursued. An additional challenge is to make such processes environmentally friendly, for example by using non-toxic reagents and energy-efficient catalytic methods. Excellent examples are naturally occurring iron- or copper-containing metalloenzymes, and extensive studies have revealed the key chemical principles that underlie their efficacy as catalysts for aerobic oxidations. Important inroads have been made in applying this knowledge to the development of synthetic catalysts that model enzyme function. Such biologically inspired hydrocarbon oxidation catalysts hold great promise for wide-ranging synthetic applications.