CuSO(4) H(2)SO(4) H(2)O Na(2)SO(4) Fume hood Sterile glass slides Electrochemistry array Pressurized tanks of ammonia and nitrogen HOPG Graphite Silver paste Cyanoacrylate glue Current amplifier Multimeter system Computer with a multimeter program 50 mL vial
Methods: I grew copper nanowire arrays from a solution and tested their change in resistance when exposed to ammonia for 5 seconds. With no ammonia, the resistance of copper nanowires does not change, while the presence of ammonia causes an increase in the resistance of the arrays. I used 2 different copper nanowire arrays and took 7 sample readings from each one. I measured the resistance of the nanowire arrays before, during, and after their exposure to ammonia and compared this to the initial resistance of the array with a ratio.
My data had a mean resistance increase of 35.5% and were highly variable with a minimum of 8% and a maximum of 105% increases in resistance, excluding one outlier of 301%.
The presence of ammonia causes a significant increase in the resistance of copper nanowire arrays. This effect is always noticeable but the magnitude of the change is subject to large variation.
The project measured the change in resistance of copper nanowire arrays when exposed to ammonia gas for future application as ultrasensitive gas sensors.
Science Fair Project done By Albert G. Linden