My Twenty Years in Microwave Chemistry: From Kitchen Ovens to Microwaves that aren't Microwaves

This Personal Account describes the author's involvement in the field of microwave‐assisted organic synthesis (MAOS) from the late 1990’s starting out with kitchen microwave ovens right through to the development of a reactor in 2016 that – although not using microwave technology – in many ways...

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Published inChemical record Vol. 19; no. 1; pp. 15 - 39
Main Author Kappe, C. Oliver
Format Journal Article
LanguageEnglish
Published United States Wiley Subscription Services, Inc 01.01.2019
John Wiley and Sons Inc
Subjects
Chemistry
continuous flow chemistry
Innovations
microwave chemistry
microwave effects
Microwaves
multimode cavity
Organic chemistry
Ovens
Personal Account
Personal Accounts
single-mode cavity
single-mode cavity
multimode cavity
microwave chemistry
continuous flow chemistry
microwave effects
Online AccessGet full text

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Abstract This Personal Account describes the author's involvement in the field of microwave‐assisted organic synthesis (MAOS) from the late 1990’s starting out with kitchen microwave ovens right through to the development of a reactor in 2016 that – although not using microwave technology – in many ways mimics the performance of a modern laboratory microwave. The reader is taken along a journey that has spanned two decades of intense research on various aspects of microwave chemistry, and, at the same time, was intimately linked to key innovations regarding equipment design and development. A “behind the scenes” approach is taken in this article to share – from a very personal point of view – how specific projects and research ideas were conceived and developed in my research group, and how in general the field of microwave chemistry has progressed in the last two decades. Microwave chemistry has turned from laboratory curiosity to an accepted technology in the past three decades. While dedicated instrumentation was rather expensive in the early days, current equipment runs at significantly below 10.000 €. This account details advancements in equipment design and development and describes the author's involvement in the field of microwave‐assisted organic synthesis since 1998.
AbstractList This Personal Account describes the author's involvement in the field of microwave‐assisted organic synthesis (MAOS) from the late 1990’s starting out with kitchen microwave ovens right through to the development of a reactor in 2016 that – although not using microwave technology – in many ways mimics the performance of a modern laboratory microwave. The reader is taken along a journey that has spanned two decades of intense research on various aspects of microwave chemistry, and, at the same time, was intimately linked to key innovations regarding equipment design and development. A “behind the scenes” approach is taken in this article to share – from a very personal point of view – how specific projects and research ideas were conceived and developed in my research group, and how in general the field of microwave chemistry has progressed in the last two decades.
Abstract This Personal Account describes the author's involvement in the field of microwave‐assisted organic synthesis (MAOS) from the late 1990’s starting out with kitchen microwave ovens right through to the development of a reactor in 2016 that – although not using microwave technology – in many ways mimics the performance of a modern laboratory microwave. The reader is taken along a journey that has spanned two decades of intense research on various aspects of microwave chemistry, and, at the same time, was intimately linked to key innovations regarding equipment design and development. A “behind the scenes” approach is taken in this article to share – from a very personal point of view – how specific projects and research ideas were conceived and developed in my research group, and how in general the field of microwave chemistry has progressed in the last two decades.
This Personal Account describes the author's involvement in the field of microwave‐assisted organic synthesis (MAOS) from the late 1990’s starting out with kitchen microwave ovens right through to the development of a reactor in 2016 that – although not using microwave technology – in many ways mimics the performance of a modern laboratory microwave. The reader is taken along a journey that has spanned two decades of intense research on various aspects of microwave chemistry, and, at the same time, was intimately linked to key innovations regarding equipment design and development. A “behind the scenes” approach is taken in this article to share – from a very personal point of view – how specific projects and research ideas were conceived and developed in my research group, and how in general the field of microwave chemistry has progressed in the last two decades. Microwave chemistry has turned from laboratory curiosity to an accepted technology in the past three decades. While dedicated instrumentation was rather expensive in the early days, current equipment runs at significantly below 10.000 €. This account details advancements in equipment design and development and describes the author's involvement in the field of microwave‐assisted organic synthesis since 1998.
This Personal Account describes the author's involvement in the field of microwave-assisted organic synthesis (MAOS) from the late 1990's starting out with kitchen microwave ovens right through to the development of a reactor in 2016 that - although not using microwave technology - in many ways mimics the performance of a modern laboratory microwave. The reader is taken along a journey that has spanned two decades of intense research on various aspects of microwave chemistry, and, at the same time, was intimately linked to key innovations regarding equipment design and development. A "behind the scenes" approach is taken in this article to share - from a very personal point of view - how specific projects and research ideas were conceived and developed in my research group, and how in general the field of microwave chemistry has progressed in the last two decades.This Personal Account describes the author's involvement in the field of microwave-assisted organic synthesis (MAOS) from the late 1990's starting out with kitchen microwave ovens right through to the development of a reactor in 2016 that - although not using microwave technology - in many ways mimics the performance of a modern laboratory microwave. The reader is taken along a journey that has spanned two decades of intense research on various aspects of microwave chemistry, and, at the same time, was intimately linked to key innovations regarding equipment design and development. A "behind the scenes" approach is taken in this article to share - from a very personal point of view - how specific projects and research ideas were conceived and developed in my research group, and how in general the field of microwave chemistry has progressed in the last two decades.
Author Kappe, C. Oliver
AuthorAffiliation 1 Institute of Chemistry University of Graz Heinrichstrasse 28, A- 8010 Graz Austria
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Issue 1
Keywords single-mode cavity
multimode cavity
microwave chemistry
continuous flow chemistry
microwave effects
Language English
License Attribution
2018 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA.
This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
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Snippet This Personal Account describes the author's involvement in the field of microwave‐assisted organic synthesis (MAOS) from the late 1990’s starting out with...
This Personal Account describes the author's involvement in the field of microwave-assisted organic synthesis (MAOS) from the late 1990's starting out with...
Abstract This Personal Account describes the author's involvement in the field of microwave‐assisted organic synthesis (MAOS) from the late 1990’s starting out...
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SubjectTerms Chemistry
continuous flow chemistry
Innovations
microwave chemistry
microwave effects
Microwaves
multimode cavity
Organic chemistry
Ovens
Personal Account
Personal Accounts
single-mode cavity
Title My Twenty Years in Microwave Chemistry: From Kitchen Ovens to Microwaves that aren't Microwaves
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Ftcr.201800045
https://www.ncbi.nlm.nih.gov/pubmed/29905399
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Volume 19
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