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• W2045449969 endingPage "5699" @default.
• W2045449969 startingPage "5689" @default.
• W2045449969 abstract "Ordered nanoporous silica films have attracted great interest for their potential use to template nanowires for photovoltaics and thermoelectrics. However, it is crucial to develop films such that an electrode under the nanoporous film is accessible to solution species via facile mass transport through well-defined pores. Here, we quantitatively measure the electrode accessibility and the effective species diffusivity for nearly all the known nanoporous silica film structures formed by evaporation-induced self-assembly upon dip-coating or spin-coating. Grazing-angle of incidence small-angle X-ray scattering was used to verify the nanoscale structure of the films and to ensure that all films were highly ordered and oriented. Electrochemical impedance spectroscopy (EIS) was then used to assess the transport properties. A model has been developed that separates the electrode/film kinetics and the film transport properties from the film/solution interface and bulk solution effects. Accounting for this, the accessible area of the nanoporous film coated FTO electrode (1 − θ) is obtained from the high-frequency data, while the effective diffusivity of the ferrocene dimethanol (DFDM) redox couple is obtained from intermediate frequencies. It was found that the degree of order and orientation in the film, in addition to the symmetry/topology, is a dominant factor that determines these two key parameters. The EIS data show that the (211) oriented double gyroid, (110) oriented distorted body center cubic, and (211) distorted primitive cubic silica films have significant accessibility (larger than 26% of geometric area). However, the double-gyroid films showed the highest diffusivity by over an order of magnitude. Both the (10) oriented 2D hexagonal and (111) oriented rhombohedral films were found to be highly blocking with only small accessibility due to microporosity. The impedance data were also collected to study the stability of the nanoporous silica films in aqueous solutions as a function of pH. The distorted primitive silica film showed much faster degradation in pH 7 solution when compared to a blocking film such as the 2D hexagonal. However, silica films maintained their structure at pH 2 for at least 12 h." @default.
• W2045449969 created "2016-06-24" @default.
• W2045449969 creator A5005169963 @default.
• W2045449969 creator A5055801270 @default.
• W2045449969 date "2007-04-06" @default.
• W2045449969 modified "2023-10-14" @default.
• W2045449969 title "Mass Transport and Electrode Accessibility Through Periodic Self-Assembled Nanoporous Silica Thin Films" @default.
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• W2045449969 doi "https://doi.org/10.1021/la062699d" @default.
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• W2045449969 hasPublicationYear "2007" @default.
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