Using polymeric hydroxypropyl methylcellulose as an alternative to 'micellar catalysis' to enable chemical reactions in water

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2022
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Current Opinion in Green and Sustainable Chemistry. Elsevier. 2022, 33, 100571. eISSN 2452-2236. Available under: doi: 10.1016/j.cogsc.2021.100571
Zusammenfassung

Synthetic chemistry relies heavily on organic solvents which are often toxic and hazardous as well as expensive in purchase and disposal. The application of water as an alternative reaction medium is not only advantageous from an environmental and safety perspective but can also offer improved selectivity and reaction rates. The exploration of this new, sustainable approach comes along with an ever-growing spectrum of reaction procedures. In this current opinion, we provide an overview of a new methodology that uses a polymeric cellulose derivative, hydroxypropyl methylcellulose, to enable chemical reactions in water.

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ISO 690BORLINGHAUS, Niginia, Valentin WITTMANN, Wilfried M. BRAJE, 2022. Using polymeric hydroxypropyl methylcellulose as an alternative to 'micellar catalysis' to enable chemical reactions in water. In: Current Opinion in Green and Sustainable Chemistry. Elsevier. 2022, 33, 100571. eISSN 2452-2236. Available under: doi: 10.1016/j.cogsc.2021.100571
BibTex
@article{Borlinghaus2022Using-57167,
  year={2022},
  doi={10.1016/j.cogsc.2021.100571},
  title={Using polymeric hydroxypropyl methylcellulose as an alternative to 'micellar catalysis' to enable chemical reactions in water},
  volume={33},
  journal={Current Opinion in Green and Sustainable Chemistry},
  author={Borlinghaus, Niginia and Wittmann, Valentin and Braje, Wilfried M.},
  note={Article Number: 100571}
}
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    <dcterms:abstract xml:lang="eng">Synthetic chemistry relies heavily on organic solvents which are often toxic and hazardous as well as expensive in purchase and disposal. The application of water as an alternative reaction medium is not only advantageous from an environmental and safety perspective but can also offer improved selectivity and reaction rates. The exploration of this new, sustainable approach comes along with an ever-growing spectrum of reaction procedures. In this current opinion, we provide an overview of a new methodology that uses a polymeric cellulose derivative, hydroxypropyl methylcellulose, to enable chemical reactions in water.</dcterms:abstract>
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