Au+3 ions are reduced to neutral gold atoms, where citrate ions act as both a reducing agent and a capping agent. This formation of gold nanoparticles can be observed
by a change in color since small nanoparticles of gold are red. The presence of this colloidal suspension can be detected by the reflection
of a laser beam from the particles. The layer of absorbed
citrate anions on the surface of the nanoparticles keep the nanoparticles separated.
Switching to a smaller anion allows the
particles to approach more closely and another color change is observed.
Never look directly into a laser
or shine a laser at another person.
Rinse all glassware with pure water before starting. Add 20 mL of 1.0 mM HAuCl4 to a 50 mL beaker or Erlenmeyer flask on
a stirring hot plate. Add a magnetic stir bar and bring the solution to a rolling boil.
How long did you heat your sample?
To the rapidly-stirred boiling solution, quickly add 2 mL of a 1% solution of trisodium citrate
The gold sol gradually forms as the citrate reduces the gold(III). Remove from heat when the solution has turned deep red or 10 minutes has elapsed.
(Gaps in the movie indicate equal gaps in time. The total elapsed time is approximately
10 times the movie length.)
The presence of metal nanoparticles can be detected by their interaction with a beam of light since the oscillating electric field causes quantized light emission from the particles. Can you see a laser beam as it passes through the solution?
(Does a solution dyed with red food coloring do the same thing?)
The light from a laser pointer may be polarized with the electric field oscillation in only in one plane. Is your laser pointer polarized? In so the plasmon emission would occur only in one plane. Shine the laser through the solution and rotate the laser.
What fraction of a full rotation separates the maximum and minimum observed brightness?
Record the visible spectrum of the solution. If necessary, add additional water to the cuvette to get the absorbance on scale.
What is the peak width at half height?
Put a small amount of the gold nanoparticle solution in two test tubes. Use one tube as a color reference and add 5-10 drops of NaCl solution to the other tube.
Does the color of the solution change as the addition of chloride makes the nanoparticles closer together?
Option 1: this part could be done in a cuvet with the visible spectrum recorded after each addition.
Option 2: test electrolyte content in sports drinks by counting drops needed to change the color of 7 drops of gold nanoparticle solution.
Before the addition of the reducing agent, the gold is in solution in the Au+3 form.
When the reducing agent is added, gold atoms are formed in the solution, and their concentration rises rapidly
until the solution exceeds saturation. Particles then form in a process called nucleation.
The remaining dissolved gold atoms bind to the nucleation sites and growth occurs. See "Producing gold colloids" (pdf) from IVD Technology.
Why do more concentrated or stronger reducing agents tend to give smaller nanoparticles?
Why does rapid mixing of the reducing agent give more monodispersed particles?
What is the wavelength and fwhm (peak width at half the maximum height) of the visible absorption?
Summarize the evidence that you made solid nanoparticles.
If you tested several salt solutions, report your results and rank the solutions in order from the least to the most electrolytes.
Stock Solutions for 25 batches
1.0 mM hydrogen tetrachloroaurate: The solid is hygroscopic so purchase HAuCl4.3H2O (Aldrich 244597 or 520918) in 1.0 g quantities and use the entire bottle. Dissolve 1.0 g HAuCl4.3H2O in
250 mL distilled water to make a 10.0 mM stock solution of gold(III) ions that can be kept for years if stored in a brown bottle. Dilute 25 mL of stock to 250 mL to make the 1.0 mM concentration for this experiment.
1% trisodium citrate: Dissolve 0.5 g Na3C6H5O7.2H2O
(sodium citrate) in 50 mL distilled water.
NaCl solution: Dissolve at least 0.5 g of NaCl in 10 mL distilled water or use a saturated solution.
Optional sports drinks: Gatorade Ice, Powerade, Flavorless Pedialyte, Pickle Juice. Colorless or as little color as possible work better.
50 mL Erlenmeyer flask or beaker (a beaker works better for the laser tests)
Graduated cylinders: 25 mL (HAuCl4) and 10 mL (Na3Citrate)
1" or 1 cm stir bar
Laser pointer, polarizing filter
Dropper bottles or droppers and test tubes or cuvets for NaCl tests