Difference between revisions of "ESR Lab Activity"

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[[File:Hydroquinones.png]]
 
[[File:Hydroquinones.png]]
  
:A=Hydroquinone (110.11 g/mol)   B=methylhydroquinone (124.14 g/mol)   C=2,3-dimethylhydroquinone (138.16 g/mol)
+
:A=Hydroquinone (110.11 g/mol)
 +
:B=methylhydroquinone (124.14 g/mol)
 +
:C=2,3-dimethylhydroquinone (138.16 g/mol)
  
 
(enter a table here with information, molar mass, sigma product number, cost)
 
(enter a table here with information, molar mass, sigma product number, cost)

Revision as of 22:44, 20 April 2016

Introduction

We are going to collect an ESR spectrum from a series of substituted hydroquinones.

Hydroquinones.png

A=Hydroquinone (110.11 g/mol)
B=methylhydroquinone (124.14 g/mol)
C=2,3-dimethylhydroquinone (138.16 g/mol)

(enter a table here with information, molar mass, sigma product number, cost)

Experimental

Beaker Method

  • Solution A: 1 M NaOH; 1 gram NaOH (39.997 g/mol) into 25 mL EtOH.
  • Solution B: 1 M hydroquinone solution.
  • Procedure: To 2 ml of 1 M hydroquinone solution add 2-3 drops of solution A. A color change will indicate the reaction has occurred. Quickly transfer colored sample to ESR sample tube, place in ESR spectrometer, tune, and collected data.

Flow Method

  • Solution A: 0.05 M NaOH; 0.05 grams NaOH (39.997 g/mol) into 25 ml EtOH.
  • Solution B: 1 M hydroquinone solution.
  • Procedure: Prepare two syringed with

Results

Analysis

Conclusions