| SWINBURNE UNIVERSITY OF TECHNOLOGY Patent applications |
| Patent application number | Title | Published |
|---|
| 20100144024 | REPLICA MOULDING OF MICROSTRUCTURES FOR SUPPORTING MICROSCOPIC BIOLOGICAL MATERIAL - A method of replica moulding microstructures, the method including forming a negative master of at least one microstructure configured to support microscopic biological material, casting a flowable polymeric material onto the negative master, placing a substrate against the flowable polymeric material and the negative master, allowing the flowable polymeric material to solidify in the negative master and on the substrate, and separating the substrate and the solidified polymeric material from the negative master, thereby leaving a positive replica of the at least one microstructure on the substrate. | 06-10-2010 |
| 20090270276 | BEAD IMMOBILISATION METHOD AND BEAD ARRAYS MADE THEREBY - A bead immobilization method including receiving at least one bead in at least one well in a casting surface, and casting a casting material over the casting surface to form a reverse casting in which the at least one bead is cast onto at least one post upstanding from a surface of the reverse casting. | 10-29-2009 |
| 20090041404 | Fiber sensor production - The invention relates to a method of generating an ordered deposition geometry on a surface of a compound optical fibre, which comprises: (a) arranging a plurality of optical fibres and/or compound optical fibres in common orientation and close packed configuration to form a bundle; (b) drawing the bundle under suitable conditions to produce a compound optical fibre of desired diameter; (c) processing the compound optical fibre to produce a substantially planar surface; (d) subjecting said surface to an etching agent to produce surface relief (e) subjecting said surface with relief to metal coating. The invention also covers a compound optical fibre having an ordered deposition geometry on a substantially planar surface that is substantially transverse to compound optical fibre longitudinal axis, wherein the compound optical fibre comprises individual optical elements of less than about 1000 nm in diameter. | 02-12-2009 |
