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Tools for Surface Treatment of Silicon Planar Intracortical Microelectrodes
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Electrochemical Late-Stage Functionalization.

Yulei Wang1, Suman Dana1, Hao Long1

  • 1Institut für Organische und Biomolekulare Chemie and Wöhler Research Institute for Sustainable Chemistry (WISCh), Georg-August-Universität, Göttingen 37077, Germany.

Chemical Reviews
|September 26, 2023
PubMed
Summary
This summary is machine-generated.

Late-stage functionalization (LSF) accelerates the creation of new molecules. Electrochemical LSF (eLSF) offers an eco-friendly method for these transformations, gaining significant traction in recent years.

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Area of Science:

  • Organic Chemistry
  • Electrochemistry
  • Medicinal Chemistry

Background:

  • Late-stage functionalization (LSF) is crucial for developing novel compounds with enhanced properties.
  • LSF accelerates the discovery of drugs, agrochemicals, and materials.
  • Electrochemical synthesis offers a sustainable approach to organic transformations.

Purpose of the Study:

  • To review the recent advancements in electrochemical late-stage functionalization (eLSF).
  • To summarize the growing momentum and applications of eLSF.
  • To provide an up-to-date overview of the field until February 2023.

Main Methods:

  • Literature review of eLSF studies published up to February 2023.
  • Analysis of key transformations and methodologies in eLSF.
  • Highlighting the advantages of electrochemical approaches in LSF.

Main Results:

  • Electrochemical late-stage functionalization (eLSF) has rapidly advanced.
  • eLSF provides an environmentally friendly alternative for molecular diversification.
  • The field has seen significant growth and adoption over the past decade.

Conclusions:

  • eLSF is a powerful and increasingly important strategy in modern organic synthesis.
  • The methodology enables efficient and sustainable access to complex molecules.
  • Continued development in eLSF promises further acceleration in chemical innovation.