Abstract: A method of manufacturing a biopolymer optofluidic device including providing a biopolymer, processing the biopolymer to yield a biopolymer matrix solution, providing a substrate, casting the biopolymer matrix solution on the substrate, embedding a channel mold in the biopolymer matrix solution, drying the biopolymer matrix solution to solidify biopolymer optofluidic device, and extracting the embedded channel mold to provide a fluidic channel in the solidified biopolymer optofluidic device. In accordance with another aspect, an optofluidic device is provided that is made of a biopolymer and that has a channel therein for conveying fluid.

Abstract: A method of manufacturing a nanopatterned biopolymer optical device includes providing a biopolymer, processing the biopolymer to yield a biopolymer matrix solution, providing a substrate with a nanopatterned surface, casting the biopolymer matrix solution on the nanopatterned surface of the substrate, and drying the biopolymer matrix solution to form a solidified biopolymer film on the substrate, where the solidified biopolymer film is formed with a surface having a nanopattern thereon. In another embodiment, the method also includes annealing the solidified biopolymer film. A nanopatterned biopolymer optical device includes a solidified biopolymer film with a surface having a nanopattern is also provided.

Abstract: This invention relates to a lamellae tissue layer, comprising a grooved silk fibroin substrate comprising tissue-specific cells. The silk fibroin substrates provides an excellent means of controlling and culturing cell and extracellular matrix development. A multitude of lamellae tissue layers can be used to create a tissue-engineered organ, such as a tissue-engineered cornea. The tissue-engineered organ is non-immunogenic and biocompatible.

Abstract: A method of manufacturing a biopolymer sensor including providing a biopolymer, processing the biopolymer to yield a biopolymer matrix solution, adding a biological material in the biopolymer matrix, providing a substrate, casting the matrix solution on the substrate, and drying the biopolymer matrix solution to form a solidified biopolymer sensor on the substrate. A biopolymer sensor is also provided that includes a solidified biopolymer film with an embedded biological material.

Abstract: This invention relates to a lamellae tissue layer, comprising a grooved silk fibroin substrate comprising tissue-specific cells. The silk fibroin substrates provides an excellent means of controlling and culturing cell and extracellular matrix development. A multitude of lamellae tissue layers can be used to create a tissue-engineered organ, such as a tissue-engineered cornea. The tissue-engineered organ is non-immunogenic and biocompatible.

Abstract: Methods and apparatus provide for a Transformer that detects a selection to playback content and downloads a file in response to detecting the selection to playback content. The file is in a first format and includes a first reference to a location of secondary content that is in a first format that is incompatible with the first format of the file. The Transformer transforms the secondary content to a format compatible with the first format of the file and creates a second reference to the location of the transformed secondary content that is in the format compatible with the first format of the file.

Abstract: A method of manufacturing a biopolymer optical device includes providing a polymer, providing a substrate, casting the polymer on the substrate, and enzymatically polymerizing an organic compound to generate a conducting polymer between the provided polymer and the substrate. The polymer may be a biopolymer such as silk and may be modified using organic compounds such as tyrosines to provide a molecular-level interface between the provided bulk biopolymer of the biopolymer optical device and a substrate or other conducting layer via a tyrosine-enzyme polymerization. The enzymatically polymerizing may include catalyzing the organic compound with peroxidase enzyme reactions. The result is a carbon-carbon conjugated backbone that provides polymeric “wires” for use in polymer and biopolymer optical devices. An all organic biopolymer electroactive material is thereby provided that provides optical functions and features.

Abstract: A method of manufacturing a biopolymer photonic crystal includes providing a biopolymer, processing the biopolymer to yield a biopolymer matrix solution, providing a substrate, casting the matrix solution on the substrate, and drying the biopolymer matrix solution to form a solidified biopolymer film. A surface of the film is formed with a nanopattern, or a nanopattern is machined on a surface of the film. In another embodiment, a plurality of biopolymer films is stacked together. A photonic crystal is also provided that is made of a biopolymer and has a nanopatterned surface. In another embodiment, the photonic crystal includes a plurality of nanopatterned films that are stacked together.

Abstract: This invention relates to a lamellae tissue layer, comprising a grooved silk fibroin substrate comprising tissue-specific cells. The silk fibroin substrates provides an excellent means of controlling and culturing cell and extracellular matrix development. A multitude of lamellae tissue layers can be used to create a tissue-engineered organ, such as a tissue-engineered cornea. The tissue-engineered organ is non-immunogenic and biocompatible.

Abstract: This invention relates to a lamellae tissue layer, comprising a grooved silk fibroin substrate comprising tissue-specific cells. The silk fibroin substrates provides an excellent means of controlling and culturing cell and extracellular matrix development. A multitude of lamellae tissue layers can be used to create a tissue-engineered organ, such as a tissue-engineered cornea. The tissue-engineered organ is non-immunogenic and biocompatible.

Abstract: An ophthalmic composition is described for the treatment of dry eye syndrome in a human or mammal. The composition comprises an aqueous solution including an effective amount of silk protein. The aqueous solution comprises from about 0.01% by weight to about 30% by weight of the silk protein. In one embodiment, the silk protein may be fibroin. A method of treating an eye having an ocular surface is also described. The method comprises providing an ophthalmic composition comprising an aqueous solution including an effective amount of silk protein, and administering the ophthalmic composition topically to the ocular surface.

Abstract: A method of manufacturing a biopolymer optofluidic device including providing a biopolymer, processing the biopolymer to yield a biopolymer matrix solution, providing a substrate, casting the biopolymer matrix solution on the substrate, embedding a channel mold in the biopolymer matrix solution, drying the biopolymer matrix solution to solidify biopolymer optofluidic device, and extracting the embedded channel mold to provide a fluidic channel in the solidified biopolymer optofluidic device. In accordance with another aspect, an optofluidic device is provided that is made of a biopolymer and that has a channel therein for conveying fluid.

Abstract: A system and apparatus that include a selectable synchronizer circuit for synchronizing data across asynchronous boundaries are disclosed. The apparatus includes a unit associated with a first clock domain and a synchronizer sub-unit (SSU) coupled to the unit and associated with a second clock domain. The synchronizer sub-unit includes two or more synchronizers and selector logic configured to select one output of the two or more synchronizers.

Abstract: Methods and apparatus provide for a Transformer that detects a selection to playback content and downloads a file in response to detecting the selection to playback content. The file is in a first format and includes a first reference to a location of secondary content that is in a first format that is incompatible with the first format of the file. The Transformer transforms the secondary content to a format compatible with the first format of the file and creates a second reference to the location of the transformed secondary content that is in the format compatible with the first format of the file.

Abstract: An ophthalmic composition is described for the treatment of dry eye syndrome in a human or mammal. The composition comprises an aqueous solution including an effective amount of silk protein. The aqueous solution comprises from about 0.01% by weight to about 30% by weight of the silk protein. In one embodiment, the silk protein may be fibroin. A method of treating an eye having an ocular surface is also described. The method comprises providing an ophthalmic composition comprising an aqueous solution including an effective amount of silk protein, and administering the ophthalmic composition topically to the ocular surface.

Abstract: An apparatus includes a base member having a substantially planar surface, the base member having cuts that partially define features including a first leg member the first leg member hingably linked to the base member such that the first leg member extends from a planar surface of the base member, a first retaining member the first retaining member operative to engage and substantially retain the first leg member in a substantially upright position, a second leg member the second leg member hingably linked to the base member such that the second leg member extends from the planar surface of the base member, and a second retaining member the second retaining member operative to engage and substantially retain the second leg member in a substantially upright position.

Abstract: A method of manufacturing a biopolymer photonic crystal includes providing a biopolymer, processing the biopolymer to yield a biopolymer matrix solution, providing a substrate, casting the matrix solution on the substrate, and drying the biopolymer matrix solution to form a solidified biopolymer film. A surface of the film is formed with a nanopattern, or a nanopattern is machined on a surface of the film. In another embodiment, a plurality of biopolymer films is stacked together. A photonic crystal is also provided that is made of a biopolymer and has a nanopatterned surface. In another embodiment, the photonic crystal includes a plurality of nanopatterned films that are stacked together.

Abstract: A method of manufacturing a biopolymer optical device includes providing a polymer, providing a substrate, casting the polymer on the substrate, and enzymatically polymerizing an organic compound to generate a conducting polymer between the provided polymer and the substrate. The polymer may be a biopolymer such as silk and may be modified using organic compounds such as tyrosines to provide a molecular-level interface between the provided bulk biopolymer of the biopolymer optical device and a substrate or other conducting layer via a tyrosine-enzyme polymerization. The enzymatically polymerizing may include catalyzing the organic compound with peroxidase enzyme reactions. The result is a carbon-carbon conjugated backbone that provides polymeric “wires” for use in polymer and biopolymer optical devices. An all organic biopolymer electroactive material is thereby provided that provides optical functions and features.