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Detecting Aluminum in Drinking Water Erica Sandoval Dr. Henry Altmiller.

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Presentation on theme: "Detecting Aluminum in Drinking Water Erica Sandoval Dr. Henry Altmiller."— Presentation transcript:

1 Detecting Aluminum in Drinking Water Erica Sandoval Dr. Henry Altmiller

2 Hypothesis & Goals Low levels of Aluminum in drinking water can be detected using a Photometric technique and GC-MS. Fluorescence Method GC-MS

3 Methodology 1.O-Phenanthroline (15mM) and Be 2+ (0.1M) 2.Sodium Acetate Buffer Solution 3.Lumogallion 4.Heated 5.Triton 6.Measure Fluorescence

4 Problem Detecting 2x10 -3 M Needed to Detect 7.413x10 -7 M

5 Variables Changed Sodium Acetate Buffer Time Triton Lumogallion Temperature

6 Neat vs. Diluted Triton 1% v/v Triton 1% v/v

7 Sodium Acetate Buffer 100uL pH=4.03 200uL pH=4.49 300uL pH=4.97 pH=4.49 pH=4.97 pH=4.03

8 Time 30 minutes 45 minutes 60 minutes 60 min 45 min 30 min

9 Temperature 25 o C 4 o C 25 o C 4oC4oC

10 Lumogallion 100 uL = 2.85x10 -6 M 200 uL = 5.67x10 -6 M 300 uL = 8.46x10 -6 M 5.67x10 -6 M 8.46x10 -6 M 2.85x10 -6 M

11 Optimum Conditions Found Excess lumogallion Neat Triton 1 hour pH 5 4 o C

12 All Aluminum Chelated Why Fluorescent Intensity Improves More Viscous Less Collisions More time to form complex

13 Testing 7.413x10 -7 M Solution Different color Less Fluorescent Intensity pH=4.96 pH=4.83 pH=4.77

14 What About the Instrument? Slit Width – Excitation – Emission

15 Accomplished Found Optimum Conditions Learned Instrument

16 Conclusion Test Drinking Water Begin GC-MS Technique Different Water Source

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