Difference between revisions of "Caffeine Project"

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To analyze the HPLC data, the data was exported as an arw file. This file was then loaded into Igor, and further analyzed from there. This allowed us to make chromatograms to gain a better understanding of the how each concentration of caffeine absorbs at 273 nm.
 
To analyze the HPLC data, the data was exported as an arw file. This file was then loaded into Igor, and further analyzed from there. This allowed us to make chromatograms to gain a better understanding of the how each concentration of caffeine absorbs at 273 nm.
 
File:HPLC_053119|thumbnail|Standard Curve of the Caffeine Samples
 

Revision as of 20:38, 31 May 2019

Project Overview

For this project I worked with Brad and a fellow student, Will Fox, to determine the caffeine levels in different samples of coffee. For this project we had to make caffeine standards to compare the samples to. The following link describes how we made these standards.

Caffeine Standards

Making the Coffee

To make the coffee for the samples, 2.6 oz of beans were weighed out. These beans were then grinded, and 38 g of the beans were placed into a pourover filter. Then, 640 g of boiling hot water were poured over the grounds, allowing the grounds to bloom as needed. This process was done with both L0 and L5 beans.

Instrumentation

After making the standards, we tested the standards using the HPLC to see where the peaks were for the different concentrations of caffeine. The following link goes into more depth about working with the HPLC.

HPLC

Once the standards were tested, another HPLC trial was done including the L0 and L5 coffee samples.

Data Analysis

To analyze the HPLC data, the data was exported as an arw file. This file was then loaded into Igor, and further analyzed from there. This allowed us to make chromatograms to gain a better understanding of the how each concentration of caffeine absorbs at 273 nm.