TY - JOUR
T1 - Molecular Design of Intercalation-Based Sensors. 1. Ammonia Sensing with Quartz Crystal Microbalances Modified by Copper Biphenylbis(phosphonate) Thin Films
AU - Brousseau, Louis C.
AU - Mallouk, Thomas E.
PY - 1997
Y1 - 1997
N2 - By combining the shape-selective intercalation reaction of ammonia into copper biphenylbis(phosphonate) with the nanogram sensitivitiy of the quartz crystal microbalancc (QCM), it is possible to detect ammonia at gas-phase concentrations of 0.01-25%. Anhydrous copper biphenylbis(phosphonate), Cu2(O3PC6H4-)2 precipitates as lamellar microcrystals when solutions of Cu2+ and biphenylbis(phosphonic acid) are combined, and its structure is closely related to that of Cu(O3PC6H5). Well-ordered and oriented thin films of this material were assembled on the gold electrodes of QCM devices by sequential adsorption of copper salts and biphenylbis(phosphonic acid). Ammonia intercalation occurs at two sites on the lattice copper atoms, one of which is irreversible at room temperature. Larger Lewis bases, such as butylamine isomers, are substantially excluded from the ammonia binding sites. The transport of ammonia into the films, which was monitored by the frequency change of the QCM device, is characterized by an effective diffusion coefficient of 5.6 × 10-9 cm2/s. With ultrathin (<70 Å) self-assembled films, the device reponse is relatively rapid and ammonia intercalation reaction is 90% complete in 90 s or less.
AB - By combining the shape-selective intercalation reaction of ammonia into copper biphenylbis(phosphonate) with the nanogram sensitivitiy of the quartz crystal microbalancc (QCM), it is possible to detect ammonia at gas-phase concentrations of 0.01-25%. Anhydrous copper biphenylbis(phosphonate), Cu2(O3PC6H4-)2 precipitates as lamellar microcrystals when solutions of Cu2+ and biphenylbis(phosphonic acid) are combined, and its structure is closely related to that of Cu(O3PC6H5). Well-ordered and oriented thin films of this material were assembled on the gold electrodes of QCM devices by sequential adsorption of copper salts and biphenylbis(phosphonic acid). Ammonia intercalation occurs at two sites on the lattice copper atoms, one of which is irreversible at room temperature. Larger Lewis bases, such as butylamine isomers, are substantially excluded from the ammonia binding sites. The transport of ammonia into the films, which was monitored by the frequency change of the QCM device, is characterized by an effective diffusion coefficient of 5.6 × 10-9 cm2/s. With ultrathin (<70 Å) self-assembled films, the device reponse is relatively rapid and ammonia intercalation reaction is 90% complete in 90 s or less.
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U2 - 10.1021/ac960630c
DO - 10.1021/ac960630c
M3 - Article
AN - SCOPUS:0001223669
SN - 0003-2700
VL - 69
SP - 679
EP - 687
JO - Analytical Chemistry
JF - Analytical Chemistry
IS - 4
ER -