摘要：

Deposition from two immiscible supercritical phases (DISP), in which a solution of supercritical carbon dioxide (scCO 2) with a desired solute is displaced by supercritical helium (scHe), has been applied to deposit poly[2-(perfluorooctyl)ethyl acrylate] (PFOEA) on silicon wafer substrate coupons. The polymer was precipitated at the interfacial boundary between the supercritical He phase and the supercritical CO 2/PFOEA solution phase and deposited on the substrates. Depending on the deposition conditions, two different deposition regimes – a particle formation regime and a film formation regime – were found. At low solution concentration or high displacement velocity, particles in the range of 1–3 μm in diameter formed while at high solution concentration or low displacement velocity, films in the range of 30–500 nm in thickness formed. The solute concentration, displacement velocity, and pressure all had a strong effect on the particle size and film thickness. Optical microscopy and atomic force microscopy (AFM) were used to characterize film morphology including drying defects and film roughness. Highly uniform films with no drying defects and low root-mean-square (RMS) roughness (2–3 nm) were obtained at high solution concentration. Films formed at low-to-moderate solution concentration displayed ring-like drying defects. The thickness and morphology of films deposited from DISP were compared with films prepared from high-pressure free meniscus coating (hFMC) with liquid CO 2 (l-CO 2) as a solvent and from normal dip coating with an organic solvent (1,1,2-trifluorotrichloroethane, Freon113). The film deposited from DISP was much thicker and more uniform than the film formed using Freon113.

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