The potential of nano-structured silicon oxide type coatings deposited by PACVD for control of aquatic biofouling

L Akesso; Michala Pettitt; James Callow; Maureen Callow; J Stallard; D Teer; C Liu; S Wang; Q Zhao; F D'Souza; P Willemsen; G Donnelly; C Donik; A Kocijan; M Jenko; L Jones; PC Guinaldo

doi:10.1080/08927010802444275

The potential of nano-structured silicon oxide type coatings deposited by PACVD for control of aquatic biofouling

L Akesso, Michala Pettitt, James Callow, Maureen Callow, J Stallard, D Teer, C Liu, S Wang, Q Zhao, F D'Souza, P Willemsen, G Donnelly, C Donik, A Kocijan, M Jenko, L Jones, PC Guinaldo

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Abstract

SiO(x)-like coatings were deposited on glass slides from a hexamethylsiloxane precursor by plasma-assisted CVD (PACVD). Surface energies (23.1-45.7 mJ m(-1)) were correlated with the degree of surface oxidation and hydrocarbon contents. Tapping mode AFM revealed a range of surface topologies with Ra values 1.55-3.16 nm and RMS roughness 1.96-4.11 nm. Settlement of spores of the green alga Ulva was significantly less, and detachment under shear significantly more on the lowest surface energy coatings. Removal of young plants (sporelings) of Ulva under shear was positively correlated with reducing the surface energy of the coatings. The most hydrophobic coatings also showed good performance against a freshwater bacterium, Pseudomonas fluorescens, significantly reducing initial attachment and biofilm formation, and reducing the adhesion strength of attached bacterial cells under shear. Taken together the results indicate potential for further investigation of these coatings for applications such as heat exchangers and optical instruments.

Original language	English
Pages (from-to)	55-67
Number of pages	13
Journal	Biofouling
Volume	25
Issue number	1
Early online date	1 Jan 2009
DOIs	https://doi.org/10.1080/08927010802444275
Publication status	Published - 1 Jan 2009

Keywords

Pseudomonas fluorescens
Cobetia marina
nano-structured surfaces
biofouling
Marinobacter hydrocarbonoclasticus
PACVD
silicon oxide
Ulva linza
Navicula perminuta

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10.1080/08927010802444275

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Akesso, L., Pettitt, M., Callow, J., Callow, M., Stallard, J., Teer, D., Liu, C., Wang, S., Zhao, Q., D'Souza, F., Willemsen, P., Donnelly, G., Donik, C., Kocijan, A., Jenko, M., Jones, L., & Guinaldo, PC. (2009). The potential of nano-structured silicon oxide type coatings deposited by PACVD for control of aquatic biofouling. Biofouling, 25(1), 55-67. https://doi.org/10.1080/08927010802444275

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title = "The potential of nano-structured silicon oxide type coatings deposited by PACVD for control of aquatic biofouling",

abstract = "SiO(x)-like coatings were deposited on glass slides from a hexamethylsiloxane precursor by plasma-assisted CVD (PACVD). Surface energies (23.1-45.7 mJ m(-1)) were correlated with the degree of surface oxidation and hydrocarbon contents. Tapping mode AFM revealed a range of surface topologies with Ra values 1.55-3.16 nm and RMS roughness 1.96-4.11 nm. Settlement of spores of the green alga Ulva was significantly less, and detachment under shear significantly more on the lowest surface energy coatings. Removal of young plants (sporelings) of Ulva under shear was positively correlated with reducing the surface energy of the coatings. The most hydrophobic coatings also showed good performance against a freshwater bacterium, Pseudomonas fluorescens, significantly reducing initial attachment and biofilm formation, and reducing the adhesion strength of attached bacterial cells under shear. Taken together the results indicate potential for further investigation of these coatings for applications such as heat exchangers and optical instruments.",

keywords = "Pseudomonas fluorescens, Cobetia marina, nano-structured surfaces, biofouling, Marinobacter hydrocarbonoclasticus, PACVD, silicon oxide, Ulva linza, Navicula perminuta",

author = "L Akesso and Michala Pettitt and James Callow and Maureen Callow and J Stallard and D Teer and C Liu and S Wang and Q Zhao and F D'Souza and P Willemsen and G Donnelly and C Donik and A Kocijan and M Jenko and L Jones and PC Guinaldo",

year = "2009",

month = jan,

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doi = "10.1080/08927010802444275",

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Akesso, L, Pettitt, M, Callow, J, Callow, M, Stallard, J, Teer, D, Liu, C, Wang, S, Zhao, Q, D'Souza, F, Willemsen, P, Donnelly, G, Donik, C, Kocijan, A, Jenko, M, Jones, L & Guinaldo, PC 2009, 'The potential of nano-structured silicon oxide type coatings deposited by PACVD for control of aquatic biofouling', Biofouling, vol. 25, no. 1, pp. 55-67. https://doi.org/10.1080/08927010802444275

TY - JOUR

T1 - The potential of nano-structured silicon oxide type coatings deposited by PACVD for control of aquatic biofouling

AU - Akesso, L

AU - Pettitt, Michala

AU - Callow, James

AU - Callow, Maureen

AU - Stallard, J

AU - Teer, D

AU - Liu, C

AU - Wang, S

AU - Zhao, Q

AU - D'Souza, F

AU - Willemsen, P

AU - Donnelly, G

AU - Donik, C

AU - Kocijan, A

AU - Jenko, M

AU - Jones, L

AU - Guinaldo, PC

PY - 2009/1/1

Y1 - 2009/1/1

N2 - SiO(x)-like coatings were deposited on glass slides from a hexamethylsiloxane precursor by plasma-assisted CVD (PACVD). Surface energies (23.1-45.7 mJ m(-1)) were correlated with the degree of surface oxidation and hydrocarbon contents. Tapping mode AFM revealed a range of surface topologies with Ra values 1.55-3.16 nm and RMS roughness 1.96-4.11 nm. Settlement of spores of the green alga Ulva was significantly less, and detachment under shear significantly more on the lowest surface energy coatings. Removal of young plants (sporelings) of Ulva under shear was positively correlated with reducing the surface energy of the coatings. The most hydrophobic coatings also showed good performance against a freshwater bacterium, Pseudomonas fluorescens, significantly reducing initial attachment and biofilm formation, and reducing the adhesion strength of attached bacterial cells under shear. Taken together the results indicate potential for further investigation of these coatings for applications such as heat exchangers and optical instruments.

AB - SiO(x)-like coatings were deposited on glass slides from a hexamethylsiloxane precursor by plasma-assisted CVD (PACVD). Surface energies (23.1-45.7 mJ m(-1)) were correlated with the degree of surface oxidation and hydrocarbon contents. Tapping mode AFM revealed a range of surface topologies with Ra values 1.55-3.16 nm and RMS roughness 1.96-4.11 nm. Settlement of spores of the green alga Ulva was significantly less, and detachment under shear significantly more on the lowest surface energy coatings. Removal of young plants (sporelings) of Ulva under shear was positively correlated with reducing the surface energy of the coatings. The most hydrophobic coatings also showed good performance against a freshwater bacterium, Pseudomonas fluorescens, significantly reducing initial attachment and biofilm formation, and reducing the adhesion strength of attached bacterial cells under shear. Taken together the results indicate potential for further investigation of these coatings for applications such as heat exchangers and optical instruments.

KW - Pseudomonas fluorescens

KW - Cobetia marina

KW - nano-structured surfaces

KW - biofouling

KW - Marinobacter hydrocarbonoclasticus

KW - PACVD

KW - silicon oxide

KW - Ulva linza

KW - Navicula perminuta

U2 - 10.1080/08927010802444275

DO - 10.1080/08927010802444275

M3 - Article

C2 - 18855197

VL - 25

SP - 55

EP - 67

JO - Biofouling

JF - Biofouling

IS - 1

ER -

The potential of nano-structured silicon oxide type coatings deposited by PACVD for control of aquatic biofouling

Abstract

Keywords

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