posted on 2014-12-24, 00:00authored byZhengjun Gong, Hongjie Du, Fansheng Cheng, Cong Wang, Canchen Wang, Meikun Fan
Swab sampling is of great importance
in surface contamination analysis. A cotton swab (cotton Q-tip) was
successfully transformed into surface-enhanced Raman scattering (SERS)
substrate (SERS Q-tip) through a bottom-up strategy, where Ag NPs
were first self-assembled onto the Q-tip followed by in situ growing.
The capability for direct swab detection of Raman probe Nile Blue
A (NBA) and a primary explosive marker 2,4-dinitrotoluene (2,4-DNT)
using the SERS Q-tip was explored. It was found that at optimum conditions,
a femotogram of NBA on glass surface could be swab-detected. The lowest
detectable amount for 2,4-DNT is only ∼1.2 ng/cm2 (total amount of 5 ng) on glass surface, 2 orders of magnitude more
sensitive than similar surface analysis achieved with infrared technique,
and comparable even with that obtained by ion mobility spectrometry–mass
spectrometry. Finally, 2,4-DNT left on fingerprints was also analyzed.
It was found that SERS signal of 2,4-DNT from 27th fingerprint after
touching 2,4-DNT powder can still be clearly identified by swabbing
with the SERS Q-tip. We believe this is the first direct SERS swabbing
test of explosives on fingerprint on glass. Considering its relative
long shelf life (>30 d), the SERS Q-tip may find great potential
in future homeland security applications when combined with portable
Raman spectrometers.