Difference between revisions of "ACS CV abs 2022 Simmonson ACS Abstract"

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:''Sara Simonson and Bradley E. Sturgeon''
 
:''Sara Simonson and Bradley E. Sturgeon''
  
The redox properties of phenols can be studied using chemical, enzymatic, and electrochemical methods. Whereas chemical and enzymatic methods have a fixed oxidation potential, electrochemical methods allow for control of the oxidation potential. The oxidation product outcomes (HPLC) from KMnO<sub>4</sub> oxidation, peroxidase/HRP oxidation, and bulk electrolysis will be presented along with the cyclic voltammetry data. Similar data will be presented for other biologically relevant phenols.
+
The redox properties of phenols can be studied using chemical, enzymatic, and electrochemical methods. Whereas chemical and enzymatic methods have a fixed oxidation potential, electrochemical methods allow for control of the oxidation potential. The oxidation product outcomes (HPLC) from KMnO<sub>4</sub> oxidation, peroxidase/HRP oxidation, and bulk electrolysis of 4-hydroyphenylacetic acid will be presented along with the cyclic voltammetry data. Similar data will be presented for other biologically relevant phenols.
  
 
''submitted to 2022 ACS National Meeting, San Diego CA, March 20-24''
 
''submitted to 2022 ACS National Meeting, San Diego CA, March 20-24''

Revision as of 16:20, 11 October 2021

Electrochemical and enzymatic evaluation of biophenols.

Sara Simonson and Bradley E. Sturgeon

The redox properties of phenols can be studied using chemical, enzymatic, and electrochemical methods. Whereas chemical and enzymatic methods have a fixed oxidation potential, electrochemical methods allow for control of the oxidation potential. The oxidation product outcomes (HPLC) from KMnO4 oxidation, peroxidase/HRP oxidation, and bulk electrolysis of 4-hydroyphenylacetic acid will be presented along with the cyclic voltammetry data. Similar data will be presented for other biologically relevant phenols.

submitted to 2022 ACS National Meeting, San Diego CA, March 20-24