Location
Nessmith-Lane Atrium
Session Format
Poster Presentation
Research Area Topic:
Natural & Physical Sciences - Chemistry
Co-Presenters and Faculty Mentors or Advisors
Shainaz M. Landge (Georgia Southern University)
Abstract
Pyridazines are nitrogen-containing compounds that have been found to show a number of pharmaceutical applications. They exhibit antimicrobial, antifungal, and antibacterial properties to name a few. In particular: 3,4,6-triphenylpyridazine derivatives are known to possess anticancer properties. The purpose of this project is to synthesize tri-substituted pyridazine derivatives using microwave-assisted reactions, and to check its biological applications. Microwave synthesis will help shorten reaction times and produce high, efficient yields. Various catalysts, bases, reaction times, and temperatures will be explored to study the scope of the reactions.
Keywords
Microwave, Synthesis, Cancer, Pyridazines, Nitrogen-containing
Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 License.
Presentation Type and Release Option
Presentation (Open Access)
Start Date
4-16-2016 10:45 AM
End Date
4-16-2016 12:00 PM
Recommended Citation
Wright, Austin, "Microwave Assisted Synthesis of Tri-substituted Pyridazine Exploration" (2016). GS4 Georgia Southern Student Scholars Symposium. 12.
https://digitalcommons.georgiasouthern.edu/research_symposium/2016/2016/12
Included in
Microwave Assisted Synthesis of Tri-substituted Pyridazine Exploration
Nessmith-Lane Atrium
Pyridazines are nitrogen-containing compounds that have been found to show a number of pharmaceutical applications. They exhibit antimicrobial, antifungal, and antibacterial properties to name a few. In particular: 3,4,6-triphenylpyridazine derivatives are known to possess anticancer properties. The purpose of this project is to synthesize tri-substituted pyridazine derivatives using microwave-assisted reactions, and to check its biological applications. Microwave synthesis will help shorten reaction times and produce high, efficient yields. Various catalysts, bases, reaction times, and temperatures will be explored to study the scope of the reactions.