Perspectives on green synthesis and catalysis

Despite their impressive capacity to access diverse functional groups and to synthesize structurally complex molecules, the majority of the organic reactions suffers from harsh conditions, low atom economy, and hazardous waste production. The goal of our research is geared towards developing efficie...

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Published inGreen synthesis and catalysis Vol. 1; no. 1; pp. 1 - 11
Main Authors Kim, Yiram, Li, Chao-Jun
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.06.2020
KeAi Communications Co. Ltd
Subjects
Aqueous reactions
CDC reactions
Electrochemistry
Green chemistry
Green synthesis and catalysis
Natural feedstocks
Photochemistry
Green synthesis and catalysis
Aqueous reactions
Electrochemistry
Green chemistry
Natural feedstocks
CDC reactions
Photochemistry
Online AccessGet full text
ISSN2666-5549
2666-5549
DOI10.1016/j.gresc.2020.06.002

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Abstract Despite their impressive capacity to access diverse functional groups and to synthesize structurally complex molecules, the majority of the organic reactions suffers from harsh conditions, low atom economy, and hazardous waste production. The goal of our research is geared towards developing efficient methods to minimize the adverse environmental impact and contributing to chemical sustainability. Herein, we illustrate three distinct green approaches, studying the novel reactivities with environmentally innocuous reagents to improve the synthetic efficiency, utilization of natural feedstocks, and employment of green energy to facilitate various important chemical transformations. From this perspective article, we hope to provide an overview of green synthetic chemistry and inspire the expansion of the field in the future. Green synthesis and catalysis play key roles in future chemical sustainability. Various examples drawn from our lab are used to discuss potential chemistry tools to convert resources prevalent in nature more efficiently into valuable products. [Display omitted]
AbstractList Despite their impressive capacity to access diverse functional groups and to synthesize structurally complex molecules, the majority of the organic reactions suffers from harsh conditions, low atom economy, and hazardous waste production. The goal of our research is geared towards developing efficient methods to minimize the adverse environmental impact and contributing to chemical sustainability. Herein, we illustrate three distinct green approaches, studying the novel reactivities with environmentally innocuous reagents to improve the synthetic efficiency, utilization of natural feedstocks, and employment of green energy to facilitate various important chemical transformations. From this perspective article, we hope to provide an overview of green synthetic chemistry and inspire the expansion of the field in the future.
Despite their impressive capacity to access diverse functional groups and to synthesize structurally complex molecules, the majority of the organic reactions suffers from harsh conditions, low atom economy, and hazardous waste production. The goal of our research is geared towards developing efficient methods to minimize the adverse environmental impact and contributing to chemical sustainability. Herein, we illustrate three distinct green approaches, studying the novel reactivities with environmentally innocuous reagents to improve the synthetic efficiency, utilization of natural feedstocks, and employment of green energy to facilitate various important chemical transformations. From this perspective article, we hope to provide an overview of green synthetic chemistry and inspire the expansion of the field in the future. Green synthesis and catalysis play key roles in future chemical sustainability. Various examples drawn from our lab are used to discuss potential chemistry tools to convert resources prevalent in nature more efficiently into valuable products. [Display omitted]
Author Li, Chao-Jun
Kim, Yiram
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  givenname: Chao-Jun
  surname: Li
  fullname: Li, Chao-Jun
  email: cj.li@mcgill.ca
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Issue 1
Keywords Green synthesis and catalysis
Aqueous reactions
Electrochemistry
Green chemistry
Natural feedstocks
CDC reactions
Photochemistry
Language English
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Snippet Despite their impressive capacity to access diverse functional groups and to synthesize structurally complex molecules, the majority of the organic reactions...
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SubjectTerms Aqueous reactions
CDC reactions
Electrochemistry
Green chemistry
Green synthesis and catalysis
Natural feedstocks
Photochemistry
Title Perspectives on green synthesis and catalysis
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