Heterobimetallic 2.2.paracyclophane complexes and their application in photoredox catalysis /Daniel Knoll.

By:

Knoll, Daniel [Author]

Contributor(s):

Karlsruher Institut für Technologie []

Material type: Text

text

Media type:

computer

Carrier type:

online resource

ISBN:

3832550712
9783832550714

Subject(s):

Genre/Form:

Electronic Books.

LOC classification:

QD400 .H484 2020

Online resources:

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Subject: The most important goal of current chemistry research is to provide green and sustainable routes to compounds of interest. One way of addressing this is the use of abundant and inexpensive sources of energy to drive reactions, with the prime example being visible light in photoredox catalysis. One recent promising approach is the use of heterobimetallic catalysts where two metals work in a cooperative fashion to achieve the desired transformation. However, these cooperative effects are poorly understood due to a lack of model complexes suitable for the intricate study of heterobimetallic complexes. In this work, 2.2.paracyclophane (PCP) is presented as a new platform on which to build distance-variable heterobimetallic complexes. The methods for the access to these synthetic targets are developed and investigated for their broader synthetic applicability. To demonstrate the potential of these complexes as catalysts, Au/Ru heterobimetallic complexes are evaluated regarding their performance in a dual photoredox catalytic arylative Meyer-Schuster rearrangement reaction. This reaction provides a very convenient and sustainable access Î±-arylated enones, an important building blocks for relevant pharmaceutical compounds.

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Item type	Current library	Collection	Call number	URL	Status	Date due	Barcode
Online Book (LOGIN USING YOUR MY CIU LOGIN AND PASSWORD)	G. Allen Fleece Library ONLINE	Non-fiction	QD400 (Browse shelf(Opens below))	Link to resource	Available		on1266753357

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Previous	QD381 A study of polymer dynamics by solid-state NMR /John Nobleman, PhD, Professor, LaGuardia and City College University of New York, (CUNY), NY, USA.	QD400 Natural heterocycles : extraction and biological activity /	QD400 Descriptors, structural and spectroscopic properties of heterocyclic derivatives of importance for health and the environment /Silvia A. Brandán, editor.	QD400 Heterobimetallic 2.2.paracyclophane complexes and their application in photoredox catalysis /Daniel Knoll.	QD411 Metal-organic frameworks (MOFs) : chemistry, applications and performance /	QD412.4 Dinitrosyl Iron Complexes As a "Working Form" of Nitric Oxide in Living Organisms /by Anatoly F. Vanin.	QD415 Artificial chemistries /Wolfgang Banzhaf and Lidia Yamamoto.	Next

Author's doctoral thesis, Karlsruher Institut für Technologie (KIT) --

Includes bibliographical references.

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The most important goal of current chemistry research is to provide green and sustainable routes to compounds of interest. One way of addressing this is the use of abundant and inexpensive sources of energy to drive reactions, with the prime example being visible light in photoredox catalysis. One recent promising approach is the use of heterobimetallic catalysts where two metals work in a cooperative fashion to achieve the desired transformation. However, these cooperative effects are poorly understood due to a lack of model complexes suitable for the intricate study of heterobimetallic complexes. In this work, 2.2.paracyclophane (PCP) is presented as a new platform on which to build distance-variable heterobimetallic complexes. The methods for the access to these synthetic targets are developed and investigated for their broader synthetic applicability. To demonstrate the potential of these complexes as catalysts, Au/Ru heterobimetallic complexes are evaluated regarding their performance in a dual photoredox catalytic arylative Meyer-Schuster rearrangement reaction. This reaction provides a very convenient and sustainable access Î±-arylated enones, an important building blocks for relevant pharmaceutical compounds.

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