L.A. Brook scite author profile

This paper describes how photocatalytically active films of TiO 2, grown by thermal CVD, may be functionally and structurally modified by deposition of nanostructured silver via a novel flame assisted CVD process. The resulting composite films are shown to be highly durable, highly photocatalytically active and are also shown to possess strong antibacterial behaviour.The deposition control, arising from the described approach, offers the potential to control the film nanostructure, which is proposed to be crucial in determining the photo and bio-activity of the combined film structure, and the transparency of the composite films.Furthermore, we show that the resultant films also exhibit "self regeneration" capability, in that they both kill bacteria present on the film surface and then photodegrade the residues. Such a dual action significantly reducing the problems of surface deactivation due to build up of contamination.These properties are especially significant when combined with the well-known durability of CVD deposited thin films, offering new opportunities for enhanced application in areas where bio-active surface functionality is sought.

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Novel multifunctional films

Brook¹,

Evans²,

Foster

et al. 2007

Surface and Coatings Technology

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Controlled Nanostructured Silver Coated Surfaces by Atmospheric Pressure Chemical Vapour Deposition

Sheel

Brook

Yates

2008

Chemical Vapor Deposition

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Thin film silver has been widely reported for its interesting properties. In this paper we describe a route to produce controlled nanostructured silver layers. A combination of Flame Assisted Chemical Vapour Deposition at atmospheric pressure, with low cost and a low toxicity silver precursor, was used to generate coatings of structured silver surfaces on glass. This approach gives a high degree of control of surface structure, density and topography. These layers have potential applications in areas such as catalysis, photo-activity and for biocidal surfaces. Our results indicate very high biocidal activity where the nano-structure is proposed as playing a significant role.

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Biocidal Silver and Silver/Titania Composite Films Grown by Chemical Vapour Deposition

Sheel

Brook

Ditta

et al. 2008

International Journal of Photoenergy

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This paper describes the growth and testing of highly active biocidal films based on photocatalytically active films ofTiO2, grown by thermal CVD, functionally and structurally modified by deposition of nanostructured silver via a novel flame assisted combination CVD process. The resulting composite films are shown to be highly durable, highly photocatalytically active and are also shown to possess strong antibacterial behaviour. The deposition control, arising from the described approach, offers the potential to control the film nanostructure, which is proposed to be crucial in determining the photo and bioactivity of the combined film structure, and the transparency of the composite films. Furthermore, we show that the resultant films are active to a range of organisms, including Gram-negative and Gram-positive bacteria, and viruses. The very high-biocidal activity is above that expected from the concentrations of silver present, and this is discussed in terms of nanostructure of the titania/silver surface. These properties are especially significant when combined with the well-known durability of CVD deposited thin films, offering new opportunities for enhanced application in areas where biocidal surface functionality is sought.

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L.A. Brook

Photo-induced self-cleaning and biocidal behaviour of titania and copper oxide multilayers

Highly bioactive silver and silver/titania composite films grown by chemical vapour deposition

Novel multifunctional films

Controlled Nanostructured Silver Coated Surfaces by Atmospheric Pressure Chemical Vapour Deposition

Biocidal Silver and Silver/Titania Composite Films Grown by Chemical Vapour Deposition

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