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2005 Conference Publication The hazards of peracetic acid bleaching: A comparative risk ranking between experts and lay peopleLaycock, Bronwyn, Covey, Geoff and Grist, Steve (2005). The hazards of peracetic acid bleaching: A comparative risk ranking between experts and lay people. |
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2005 Journal Article The hazards of peracetic acid bleaching: a comparative risk ranking between experts and lay people.Laycock, B, Covey, G and Grist, S (2005). The hazards of peracetic acid bleaching: a comparative risk ranking between experts and lay people.. Appita Journal, 58 (6), 433-441. |
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2005 Conference Publication The hazard of peracetic acid bleaching: a comparative risk ranking between experts and laypeopleLaycock, Bronwyn, Covey, Geoff and Grist, Steve (2005). The hazard of peracetic acid bleaching: a comparative risk ranking between experts and laypeople. 59th Appita Annual Conference and Exhibition: Incorporating the 13th ISWFPC (International Symposium on Wood, Fibre and Pulping Chemistry), Auckland, New Zealand, 16-19 May 2005. Carlton, Vic: Appita Inc. |
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2001 Other Outputs Aqueous Polyimide ProcessLaycock, B., Hawthorne, D., Hodgkin, J. and Morton, T. (2001). Aqueous Polyimide Process. 6,333,391. |
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2000 Journal Article Hydrogel lens monomer constituents modulate protein sorptionGarrett, Qian, Laycock, Bronwyn and Garrett, R. Wayne (2000). Hydrogel lens monomer constituents modulate protein sorption. Investigative Ophthalmology and Visual Science, 41 (7), 1687-1695. |
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2000 Other Outputs Process for manufacture of a porous polymer from a mixtureChaouk, H., Meijs, G. and Laycock, B. (2000). Process for manufacture of a porous polymer from a mixture. 6,015,609. |
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1999 Other Outputs Cell growth substrate polymerMeijs, G., Laycock, B., Griffiths, M., Cheong, E., Steele, J. and Johnson, G. (1999). Cell growth substrate polymer. 5,994,133. |
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1999 Other Outputs Polymerizable siloxane macromonomersLaycock, B. and Meijs, G. (1999). Polymerizable siloxane macromonomers. 5,981,615. |
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1999 Other Outputs Extended wear ophthalmic lensNicolson, P., Baron, R., Chabrecek, P., Court, J., Domschke, J., Griesser, H., Ho, A., Hoepken, J., Laycock, B., Liu, Q., Lohmann, D., Meijs, G., Papaspiliotopoulos, J., Riffle, J., Schindhelm, K., Sweeney, D., Terry, W., Vogt, J. and Winterton, L. (1999). Extended wear ophthalmic lens. 5,849,811. |
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1999 Other Outputs Extended Wear Ophthalmic LensNicolson, P., Baron, R., Chabrecek, P., Court, J., Domschke, A., Griesser, H., Ho, A., Hoepken, J., Laycock, B., Liu, Q., Lohmann, D., Meijs, G., Papaspiliotopoulos, E., Riffle, J., Schindhelm, K., Sweeney, D., Terry, W., Vogt, J. and Winterton, L. (1999). Extended Wear Ophthalmic Lens. 5,965,631. |
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1999 Other Outputs “Perfluoroalkylether macromer having two polymerisable groups”Meijs, G., Laycock, B., Griffiths, M. and Cheong, E. (1999). “Perfluoroalkylether macromer having two polymerisable groups”. 5,962,611. |
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1999 Other Outputs “Polymerizable perfluoroalkylether macromer”Meijs, G., Laycock, B., Steele, J. and Johnson, G. (1999). “Polymerizable perfluoroalkylether macromer”. |
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1999 Conference Publication Cell interactions with perfluoropolyether-based network copolymersJohnson, G., Meijs, G. F., Laycock, B. G., Griffith, M. G., Chaouk, H. and Steele, J. G. (1999). Cell interactions with perfluoropolyether-based network copolymers. American Chemical Society (ACS) Meeting, San Francisco, CA, United States, 13-17 April 1997. Abingdon, Oxfordshire, United Kingdom: Taylor & Francis. doi: 10.1163/156856299X00144 |
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1998 Other Outputs “Polymerizable perfluoroalkylether macromere"Nicolson, P., Baron, R., Chabrecek, J., Court, J., Domschke, A., Griesser, H., Ho, A., Hoepken, J., Laycock, B., Liu, Q., Lohmann, D., Meijs, G., Papaspiliotopoulos, E., Riffle, J., Schindhelm, K., Sweeney, D., Terry, W., Vogt, J. and Winterton, L. (1998). “Polymerizable perfluoroalkylether macromere". 5,789,461. |
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1998 Other Outputs Methods of forming an extended wear ophthalmic lens having a hydrophilic surfaceNicolson, P., Baron, R., Chabrecek, P., Court, J., Domschke, A., Griesser, H., Ho, A., Hoepken, J., Laycock, B., Liu, Q., Lohmann, D., Meijs, G., Papaspiliotopoulos, E., Riffle, J., Schindhelm, K., Sweeney, D., Terry, W., Vogt, J. and Winterton, L. (1998). Methods of forming an extended wear ophthalmic lens having a hydrophilic surface. US5776999 A. |
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1998 Other Outputs Extended wear ophthalmic lensNicolson, P., Baron, R., Chabrecek, P., Court, J., Domschke, A., Griesser, H., Ho, A., Hoepken, J., Laycock, B., Liu, Q., Lohmann, D., Meijs, G., Papaspiliotopoulos, E., Riffle, J., Schindhelm, K., Sweeney, D., Terry, W., Vogt, J. and Winterton, L. (1998). Extended wear ophthalmic lens. US5760100 A. |
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1992 Other Outputs The electrophilic cleavage of allylsilanes : investigations into the mechanism of the electrophilic cleavage of allylsilanes and the synthesis of optically active silicon centred allylic silacyclopentanesLaycock, Bronwyn (1992). The electrophilic cleavage of allylsilanes : investigations into the mechanism of the electrophilic cleavage of allylsilanes and the synthesis of optically active silicon centred allylic silacyclopentanes. PhD Thesis, School of Molecular and Microbial Sciences, The University of Queensland. doi: 10.14264/uql.2015.579 |
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1988 Journal Article Syntheesis and stereochemistry of acidolysis of some cyclohept-2-enylstannames and -silanesKitching W., Penman K.G., Laycock B. and Maynard I. (1988). Syntheesis and stereochemistry of acidolysis of some cyclohept-2-enylstannames and -silanes. Tetrahedron, 44 (13), 3819-3831. doi: 10.1016/S0040-4020(01)86639-4 |
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1988 Journal Article Silylcuprate routes to cyclohex-2-enylsilanesLaycock, Bronwyn, Maynard, Ian, Wickham, Geoffrey and Kitching, William (1988). Silylcuprate routes to cyclohex-2-enylsilanes. Australian Journal of Chemistry, 41 (5), 693-700. doi: 10.1071/CH9880693 |
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1986 Journal Article Stereochemistry of acidolysis of cyclohept-2-enyl-silanes and -stannanesKitching, W, Laycock, B, Maynard, I and Penman, K (1986). Stereochemistry of acidolysis of cyclohept-2-enyl-silanes and -stannanes. Journal of the Chemical Society, Chemical Communications (12), 954-955. doi: 10.1039/C39860000954 |
