Simultaneous measurement at dopamine and ascorbate at their physiological levels using voltammetric microprobe based on overoxidized poly(1,2-phenylenediamine)-coated carbon fiber
Jw. Mo et B. Dgorevc, Simultaneous measurement at dopamine and ascorbate at their physiological levels using voltammetric microprobe based on overoxidized poly(1,2-phenylenediamine)-coated carbon fiber, ANALYT CHEM, 73(6), 2001, pp. 1196-1202
Overoxidized poly-(1,2-phenylenediamine) (OPPD)-coated carbon fiber microel
ectrodes (CFMEs) exhibit, in combination with square-wave voltammetry (SWV)
detection mode, the attractive ability to simultaneously measure low nM do
pamine (DA) and mM ascorbate (AA) ina pH 7.4 medium. The PPD polymer film i
s electrodeposited onto a carbon fiber at a constant potential of 0.8 V ver
sus Ag/AgCl using a solution containing sodium dodecylsulfate as the dopant
. After overoxidation using cyclic voltammetry (CV) in the potential range
from 0 to 2.2 V at a scan rate of 10 V/s, the resulting OPPD-CFME displays
a high SWV current response to cationic DA at similar to0.2 V and has a fav
orably blow response to anionic AA at similar to0.0 V vs Ag/AgCl. The prepa
ration of the new OPPD-sensing film has been carefully studied and optimize
d. The OPPD properties and behavior were characterized using CV and SWV und
er various conditions and are discussed with respect to DA and AA detection
. The linear calibration range for DA in the presence of 0.3 mMAA is 50 nM
to 10 muM, with a correlation coefficient of 0.998 and a detection limit of
10 nM using 45-s accumulation.;The detection limit for DA in the absence o
f AA was estimated to be 2 nM (S/N = 3). The linear range for AA in the pre
sence of 100 nhl DA is 0.2-2 mM, with a correlation coefficient of 0.999 an
d a detection limit of 80 muM. The reproducibilities of SWV measurements at
OPPD-CFC-MEs are 1.6% and 2.5% for 100 nM DA and 0.3 mM AA, respectively.
Potential interfering agents, such as 3,4-dihydroxphenylacetic acid, uric a
cid, oxalate, human serum proteins, and glucose, at their physiologically r
elevant or higher concentrations did not have any effect. These favorable f
eatures offer great promise for in vitro and in vivo application of the! pr
oposed OPPD-coated microprobe.