Today's objective was to use HPLC to determine the concentration of acetylsalicylic acid in the supernatant of the samples we synthesized on February 16. However, we did not get to HPLC today. Instead, we made a calibration curve for the absorption of acetylsalicylic acid using UV-Vis absorbance spectroscopy.
Our second objective for today was to synthesize more acetylsalicylic-doped AuNP fibers for use in measurements next week.
Protocol
First, we made a new, 44.72µM lysozyme stock:
0.03199g lysozyme diluted to 50mL in DI water in a volumetric flask
We then visually observed our samples synthesized yesterday. We noted whether fibers had formed and how dark the supernatant was. We then added acetylsalicylic acid to the samples that had been designated to receive the acid after incubation in the oven, and we took pictures of all of the samples.
We also made a calibration curve for the absorbance of acetylsalicylic acid of 297nm light as a function of concentration. We used UV-Vis absorbance spectroscopy.
Next, we made new fiber samples. This time, we decreased the concentration of lysozyme in our samples in order to try to form fibers instead of colloids. (The resulting ratio of gold:lysozyme was 60:1.) We also made 5mL samples instead of 1mL samples, and we made our samples in glass test tubes instead of in plastic Eppindorf tubes. The following table shows the ingredients in each sample.
Table 1: Components of Each Sample
The yellow box indicates that we added 49.88µL of water before putting the sample in the oven (to make up for the extra volume that all the samples containing acetylsalicylic acid had). The green box indicates that we will need to add 49.88µL of water after taking the sample out of the oven (to make up for the extra volume that all the samples containing acetylsalicylic acid had).
We put all of the samples in the oven at 80°C for four hours (except for B_200uM_04, B_100uM_04, B_50uM_04, A_200uM_04, A_100uM_04, and A_50uM_04, which we left out on the bench top).
Data, Analysis, and Observations
Samples Synthesized on February 16, 2016
(See the entry for February 16, 2016 for synthesis of these samples.)
First, we observed whether or not fibers had formed from these samples, and we judged the darkness of the color of the supernatant. At first, it appeared as if the only samples to form fibers were the samples that received acetylsalicylic acid before being placed in the oven. The addition of acetylsalicylic acid to the samples that were designated to receive the acid after the oven did not change this observation. However, upon closer observation, these "fibers" actually turned out to be large AuNP colloids because they broke up easily after being shaken.
Table 2: Observations of Samples Synthesized on February 16, 2016
Sample Name
Fibers Formed (before adding aspirin, if applicable)?
Supernatant (before adding aspirin, if applicable)
B_200uM_01
Yes
1
B_200uM_02
Yes
2
B_200uM_03
Yes
1
B_200uM_04
Grey mesh
0
B_100uM_01
Yes
2
B_100uM_02
Yes
2
B_100uM_03
Yes
2
B_100uM_04
Darker grey mesh
0
B_50uM_01
Yes
2
B_50uM_02
Yes
2
B_50uM_03
Yes
1.5
B_50uM_04
Even darker grey mesh
0
A_200uM_01
Weak
2.5
A_200uM_02
Weak
3
A_200uM_03
Weak
3
A_200uM_04
No
0
A_100uM_01
Weak
3
A_100uM_02
Weak
2.5
A_100uM_03
Weak
3
A_100uM_04
No
0
A_50uM_01
Weak
3
A_50uM_02
Weak
3
A_50uM_03
Weak
3
A_50uM_04
No
0
aspirin200uM_hcl
No
0
aspirin200uM_hcl_lys
No
0
aspirin200uM_au
No
0
aspirin100uM_au
No
0
aspirin50uM_au
No
0
au_lys_before
Weak
2.5
au_lys_after
Weak
2.5
The above table shows each sample name in the leftmost column. We made observations about the samples after taking them out of the oven but before adding acetylsalicylic acid to the samples that were designated to receive the acid after the oven. The middle column shows whether or not "fibers" formed. Note that in this case, "fibers" actually meant large AuNP colloids. "Mesh" indicates that a grey mesh suspended in supernatant was formed. The rightmost column describes how dark the supernatant was on a relative scale of 0-5, where 0 was clear and 5 was very dark.
It was interesting to note that the samples that were left on the bench top instead of being placed in the oven formed a sort of grey mesh suspended in supernatant. A possible explanation for this formation is that the acetylsalicylic acid was acting as a reducing agent that aided in the formation of AuNP. Since the samples were left on the bench instead of being heated, the AuNP formation was much slower. Thus, larger nanoparticles were formed, creating a mesh that was grayish in color (since smaller AuNP are purple while larger AuNP are grey).
Figure 1a-h: Images of Samples Synthesized on February 16, 2016 After Incubation in Oven and Addition of Acetylsalicylic Acid to Designated Samples
Calibration Curve for UV-Vis Absorbance of Acetylsalicylic Acid
Figure 2: Calibration Curve for UV-Vis Absorbance of Acetylsalicylic Acid
The above calibration curve shows the absorbance of acetylsalicylic acid of light of wavelength 297nm as a function of the concentration of acetylsalicylic acid (µM).