This paper is concerned with a novel layer-by-layer adsorption
method for preparing multilayer assemblies
of polymeric materials. We employed two kinds polymers,
poly[2-(9-carbazolyl)ethyl methacrylate] and
poly[2-[(3,5-dinitrobenzoyl)oxy]ethyl methacrylate],
both bearing nonionic pendant groups in the side chains
which have electron-donating character and electron-accepting
character, respectively. These polymers
were alternatively adsorbed onto the gold surface and the quartz
substrates from the solutions in methylene
chloride. The formation of this multilayer assembly is based on
the charge-transfer (CT) interaction
between these groups at the solid−liquid interface and the films
obtained have periodic layers of CT
complexes. The successive increase of the thickness could be
easily monitored by surface plasmon
measurements. The thickness increment increased with the increase
in the number of layers, and the
increment became constant around the 10th layer, indicating that the
total thickness of the film increases
linearly by the alternating adsorption of the counter
polymer.
A layer-by-layer film could be fabricated on a substrate by the consecutive adsorption method based on the charge-transfer (CT) interaction between electron-donating carbazolyl groups and electron-accepting 3,5-dinitrobenzoyl groups in the side chains of two kinds of methacrylate polymers, poly[2-(9-carbazolyl)ethyl methacrylate] (PCzEMA) and poly [2-[(3,5-dinitrobenzoyl)oxy]ethyl methacrylate] (PDNBMA), respectively. The film was characterized by surface plasmon (SP) and UV-vis absorption measurements. The thickness of each layer in the film could be determined by the SP measurements. In the UV-vis absorption measurements, the absorbance of the CT complex increased linearly with the increase in the number of adsorption cycles, indicating that the steady growth of the film took place by immersing the substrate alternatively in the 1,2-dichloroethane solutions of each polymer. Furthermore, the decrease in the absorbance of carbazolyl groups was observed on the immersion of the film with the PCzEMA surface in the solution of PDNBMA. This indicates the formation of the CT complex between adjacent polymer layers. The multilayered structure of the obtained film showed an excellent thermal stability up to 200 °C.
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