Abstract: A co-assembly method for synthesizing inverse photonic structures is described. The method includes combining an onium compound with a sol-gel precursor to form metal oxide (MO) nanocrystals, where each MO nanocrystal has crystalline and amorphous content. The MO nanocrystals are combined with templating particles to form a suspension. A solvent is evaporated from the suspension to form an intermediate or compound product, which then undergoes calcination to produce an inverse structure.

Abstract: A method of making a multi-layered film includes depositing thin film layers onto a first side of a double-sided transparent substrate. The thin film layers are transparent, and two adjacent layers of said plurality of thin film layers have different refractive indices. One or more absorbers are deposited at an interface formed between two of the thin film layers that are adjacent to one another, or formed by the first side of the substrate and one of the thin film layers. The absorbers absorb selected wavelengths of incident light and reflect part of the incident light after inducing a phase shift. The location of the interface is selected to provide desired wavelengths of absorbed and reflected light. The multi-layered film has a first appearance when viewed from the first side of the substrate and a second appearance when viewed from the second side of the substrate.

Abstract: A method of making a multi-layered film includes depositing thin film layers onto a first side of a double-sided transparent substrate. The thin film layers are transparent, and two adjacent layers of said plurality of thin film layers have different refractive indices. One or more absorbers are deposited at an interface formed between two of the thin film layers that are adjacent to one another, or formed by the first side of the substrate and one of the thin film layers. The absorbers absorb selected wavelengths of incident light and reflect part of the incident light after inducing a phase shift. The location of the interface is selected to provide desired wavelengths of absorbed and reflected light. The multi-layered film has a first appearance when viewed from the first side of the substrate and a second appearance when viewed from the second side of the substrate.

Abstract: A system and method to measure properties of a liquid, comprising: a colorimetric sensor comprising a photonic structure that displays a first signature upon exposure to a sample liquid that wets at least some of the interior surfaces of the porous photonic structure and displays a signature different from the first signature as the sample liquid evaporates. The system further includes a device to capture changes in the color of the colorimetric sensor; a memory to store data generated by the device; and a processing unit to analyze the data captured by the device. The processing unit compares the data captured by the device with a reference data, wherein the reference data comprises information regarding a time-dependent response of the colorimetric sensor upon exposure to and removal of a first set of predetermined liquids and to output information regarding the sample liquid.

Abstract: A solid ink composition suitable for ink jet printing, including printing on coated paper substrates. In embodiments, the solid ink composition comprises both a crystalline compound and an amorphous compound, and a fatty acid, which provides for a robust ink wherein the phase change ink crystallizes faster from the liquid state than the same composition without the fatty acid.

Abstract: A solid ink composition suitable for ink jet printing, including printing on coated paper substrates. In embodiments, the solid ink composition comprises both a crystalline compound and an amorphous compound, and a fatty acid, which provides for a robust ink wherein the phase change ink crystallizes faster from the liquid state than the same composition without the fatty acid.

Abstract: A solid ink composition suitable for ink jet printing, including printing on coated paper substrates. In embodiments, the solid ink composition comprises both a crystalline compound and an amorphous compound, and a fatty acid, which provides for a robust ink wherein the phase change ink crystallizes faster from the liquid state than the same composition without the fatty acid.

Abstract: A support structure comprises image formers, weapons and sighting systems. An image former system is completely practicable by individuals of short stature or limited mobility, especially those in wheelchairs. Ordinary telescope optics and extremely rigid and simplified mechanical structural system allow the imagers incident optical axis to move through three-dimensional space while the eyepiece image moves in one plane. Elevational rotation of the imager about the eyepiece allows the observer to view 360 degrees in elevation without eye movement. A main tube tangential to the objective and parallel to the incident optical axis concentrically receives optical supports which retain the optics. The optical elements may be installed, removed, replaced and cleaned without realignment of the optics. The optical support design receives reflective or refractive optics of varying focal lengths; the objective support accommodates cameras without focal adapters.

Abstract: A support structure comprises as image formers, weapons and sighting systems. An image former system is completely practicable by individuals of short stature or limited mobility, especially those in wheelchairs. Ordinary telescope optics and extremely rigid and simplified mechanical structural system allow the imagers incident optical axis to move through 3-dimensional space while the eyepiece image moves in one plane. Elevational rotation of the imager about the eyepiece allows the observer to view 360 degree in elevation without eye movement. A main tube tangential to the objective and parallel to the incident optical axis concentrically receives optical supports which retain the optics. The optical elements may be installed, removed, replaced and cleaned realignment of the optics. The optical support design receives reflective or refractive optics of varying focal lengths; the objective support accommodates cameras without focal adapters. The structural elements may receive ordnance and sighting means.