A facile approach for controlling the orientation of one-dimensional mesochannels in mesoporous titania films

Controlling of the orientation of mesochannels in mesostructured thin films is important for the development of novel molecular devices and, in particular, generating vertically aligned mesochannels with respect to the substrate plane is extremely challenging for nonsiliceous materials. We describe a facile and highly effective air flow method, which is able to control the unidirectional alignment of titania mesochannels in a desired direction (e.g., parallel, perpendicular, or oblique) on a large scale, via manipulation of the air flow rate and incident angle. The titania mesochannels were characterized by TEM, SEM, SAXRD, and GISAXS. The unidirectional, vertically aligned mesostructured titania films were found to exhibit excellent ion conductivity.

A facile approach for controlling the orientation of one-dimensional mesochannels in mesoporous titania films

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Impact of the Ventilated Cavity on the Thermal Performance of Traditional Wall Structures

Impact of air-flow on thermal performance of air-spaces behind cladding (ASHRAE 1759-TRP)

Experimental two-phase fluid flow in microchannels

Impact of the Ventilated Cavity on the Thermal Performance of Traditional Wall Structures

Impact of air-flow on thermal performance of air-spaces behind cladding (ASHRAE 1759-TRP)

Experimental two-phase fluid flow in microchannels