Abstract: A nanostructured chip includes a substrate and a nanostructured layer, wherein the substrate has a first surface and a second surface on which the nanostructured layer is formed. A method of producing the nanostructured chip includes the step of forming the nanostructured layer on the second surface of the substrate. Whereby, the nanostructured layer effectively disperses a stress to increase the flexural strength of the nanostructured chip. Therefore, during the subsequent procedures to form an epitaxial layer on the first surface, the nanostructured layer is helpful to prevent the epitaxial layer from generating cracks, and prevent the substrate from bowings, or fragments.

Abstract: A chip reducing thermal stress of current path thereon, including: a substrate having at least one nanowires zone formed on a surface thereof; and at least one current path formed within the at least one nanowires zone on the surface of the substrate, wherein, the at least one nanowires zone has a function of reducing a thermal stress of the at least one current path.

Abstract: A chip reducing thermal stress of current path thereon, including: a substrate having at least one nanowires zone formed on a surface thereof; and at least one current path formed within the at least one nanowires zone on the surface of the substrate, wherein, the at least one nanowires zone has a function of reducing a thermal stress of the at least one current path.

Abstract: A conjugate common light path lithography lens set includes a first, second, third, and fourth spherical mirrors, arranged sequentially, a spherical reflecting mirror arranged below the fourth spherical mirror, a first and second planar reflecting mirrors, inclinedly arranged above the first spherical mirror, so that a conjugate telecentric component pattern is formed to maintain an pattern of an object to have a non-deformed pattern after experiencing these optical components. As such, the omni-spherical mirror set and two kinds of optical material are mutually arranged to form the novel conjugate common light path lithography lens set. This may further achieve the function of the lithography lens, and have a direct effect on the manufacturing cost.

Abstract: A portable fluorescence analysis system comprises a fluorescence strip, a fluorescence excitation device and a mobile Internet device. The fluorescence strip comprises a fluorescence probe configured for detecting an analyte within a specimen. The fluorescence excitation device comprises a sleeve and an excitation light source module. The fluorescence strip is arranged at the one open end of the sleeve. The excitation light source module is arranged at the same opening side of the sleeve and configured for providing an excitation light to excite the fluorescence probe to generate fluorescence. The mobile Internet device comprises an image capturing module and configured for capturing a fluorescence image of the fluorescence strip via the other opening of the sleeve and analyzing fluorescence intensity of the fluorescence image to determine the content of the analyte. The above-mentioned system can be applied to the point of care testing.

Abstract: The present invention provides a personal hygiene item. In simple terms, one of the main features of the present invention is to provide a low-cost personal hygiene item capable of providing a multi-component detection function. The personal hygiene item of the present invention mainly comprises a first material layer and a second material layer. The first material layer is made of hydrophobic material, and the second material layer is disposed thereon. Also, the second material layer comprises a discolored portion. In actual practice, a fluid under test contacts with the corresponding discolored portions via the hydrophobic layer of second material layer for a color changing reaction. Meanwhile, since the hydrophilic performance of the discolored portion is better than the hydrophilic performance of the hydrophilic layer, the back permeation of the fluid under test can herein be prevented.

Abstract: A conjugate common light path lithography lens set includes a first, second, third, and fourth spherical mirrors, arranged sequentially, a spherical reflecting mirror arranged below the fourth spheircal mirror, a first and second planar reflecting mirrors, inclinedly arranged above the first spherical mirror, so that a conjugate telecentric component pattern is formed to maintain an pattern of an object to have a non-deformed pattern after experiencing these optical components. As such, the omni-spherical mirror set and two kinds of optical material are mutually arranged to form the novel conjugate common light path lithography lens set. This may further achieve the function of the lithography lens, and have a direct effect on the manufacturing cost.

Abstract: A nanostructured chip includes a substrate and a nanostructured layer, wherein the substrate has a first surface and a second surface on which the nanostructured layer is formed. A method of producing the nanostructured chip includes the step of forming the nanostructured layer on the second surface of the substrate. Whereby, the nanostructured layer effectively disperses a stress to increase the flexural strength of the nanostructured chip. Therefore, during the subsequent procedures to form an epitaxial layer on the first surface, the nanostructured layer is helpful to prevent the epitaxial layer from generating cracks, and prevent the substrate from bowings, or fragments.

Abstract: A wafer with high rupture resistance includes a plurality of surfaces, wherein the surfaces include a largest surface having a largest area than others and a side surface connected to the fringe of the largest surface. The side surface forms a nanostructured layer thereon to assist the stress dispersion of the wafer. Accordingly, the wafer is provided with a high rupture resistance so as to prevent the wafer from damages during semiconductor or other processes.

Abstract: The invention discloses a solar substrate with high fracture strength. The solar substrate according to the invention comprises an upper surface, a plurality of first protrusions and a plurality of first recess regions. The first protrusions are formed on the upper surface and each of the plurality of first recess regions being formed on the surrounding of the plurality of first protrusions, such that the deflection required to crack the solar substrate by bending thereto being increased in comparison with the solar substrate without the plurality of first protrusions and first recess regions formed thereon. By the combination of the protrusions and the recess regions, the fracture strength of the solar substrate is enhanced for enduring a high tension.

Abstract: A portable fluorescence analysis system comprises a fluorescence strip, a fluorescence excitation device and a mobile Internet device. The fluorescence strip comprises a fluorescence probe configured for detecting an analyte within a specimen. The fluorescence excitation device comprises a sleeve and an excitation light source module. The fluorescence strip is arranged at the one open end of the sleeve. The excitation light source module is arranged at the same opening side of the sleeve and configured for providing an excitation light to excite the fluorescence probe to generate fluorescence. The mobile Internet device comprises an image capturing module and configured for capturing a fluorescence image of the fluorescence strip via the other opening of the sleeve and analyzing fluorescence intensity of the fluorescence image to determine the content of the analyte. The above-mentioned system can be applied to the point of care testing.

Abstract: The present invention provides a personal hygiene item. In simple terms, one of the main features of the present invention is to provide a low-cost personal hygiene item capable of providing a multi-component detection function. The personal hygiene item of the present invention mainly comprises a first material layer and a second material layer. The first material layer is made of hydrophobic material, and the second material layer is disposed thereon. Also, the second material layer comprises a discolored portion. In actual practice, a fluid under test contacts with the corresponding discolored portions via the hydrophobic layer of second material layer for a color changing reaction. Meanwhile, since the hydrophilic performance of the discolored portion is better than the hydrophilic performance of the hydrophilic layer, the back permeation of the fluid under test can herein be prevented.

Abstract: The present invention provides a fabric-base biochemical detecting device and the fabricating method thereof. The device comprises a fabric-base material, a detecting material, and glue. The fabricating method comprises the following steps of: (S1) preparing a fabric-base material, and the basic material is a hydrophobic fabric-base material; (S2) applying a plasma to treat part of the hydrophobic fabric-base material for forming a hydrophilic region on the fabric-base material; (S3) preparing a detecting material to be disposed on the hydrophilic region of the fabric-base material; and (S4) preparing glue for covering the detecting material. The present invention can extend the duration of the detecting material by covering the glue with the detecting material, and have the advantages of simplified manufacture procedure, low cost, and availability of multiple biochemical examinations.

Abstract: A method for manufacturing a wafer includes forming a plurality nano-pillars on a surface of a brick; forming a cover layer on the surfaces of the brick, wherein the cover layer covers the nano-pillars; forming an adhesive layer on the surface of the cover layer; cutting the brick into a plurality of wafers; and removing the cover layer and the adhesive layer on the wafers by a solvent, wherein the solvent reacts with the cover layer but not reacts with the brick.

Abstract: A portable fluorescence analysis system comprises a fluorescence strip, a fluorescence excitation device and a mobile Internet device. The fluorescence strip comprises a fluorescence probe configured for detecting an analyte within a specimen. The fluorescence excitation device comprises a sleeve and an excitation light source module. The fluorescence strip is arranged at the one open end of the sleeve. The excitation light source module is arranged at the same opening side of the sleeve and configured for providing an excitation light to excite the fluorescence probe to generate fluorescence. The mobile Internet device comprises an image capturing module and configured for capturing a fluorescence image of the fluorescence strip via the other opening of the sleeve and analyzing fluorescence intensity of the fluorescence image to determine the content of the analyte. The above-mentioned system can be applied to the point of care testing.

Abstract: An ingot cutting method capable of reducing wafer damage percentage, comprising: forming a layer of nanostructures on at least one surface of an ingot; depositing a buffer layer on the layer of nanostructures; fixing the ingot to a mounting plate by applying a layer of epoxy between the buffer layer and the mounting plate; performing a dicing process on the ingot to get a plurality of wafers; and performing an epoxy removal process on the plurality of wafers.

Abstract: An ingot cutting method capable of reducing wafer damage percentage, comprising: forming a layer of nanostructures on at least one surface of an ingot; depositing a buffer layer on the layer of nanostructures; fixing the ingot to a mounting plate by applying a layer of epoxy between the buffer layer and the mounting plate; performing a dicing process on the ingot to get a plurality of wafers; and performing an epoxy removal process on the plurality of wafers.

Abstract: A bendable solar cell capable of optimizing thickness and conversion efficiency, comprising: a solar cell body having a top surface, a bottom surface, and four side walls; and a layer of nanostructures located on said side walls, wherein said solar cell body has a thickness ranging from about 50 ?m to about 120 ?m, and said layer of nanostructures has a depth ranging from about 2 ?m to 8 ?m.

Abstract: The invention discloses liquid combination for liquid lens. The liquid combination comprises an oil phase liquid and an aqueous phase liquid. The oil phase liquid comprises a silicon oil polymerized by siloxane. The aqueous phase liquid comprises a solution mixed with alcohol and water. Due to the liquid lens atomized and opaque by emulsion, the recovering time of the liquid lens from the emulsion will affect the performance of the liquid lens hugely. Accordingly, the recovering time is a performance index of the liquid lens. The liquid combination of the invention for the liquid lens can meet the specification and have the fast speed which is recovered from the emulsion.

Abstract: A portable fluorescence analysis system comprises a fluorescence strip, a fluorescence excitation device and a mobile Internet device. The fluorescence strip comprises a fluorescence probe configured for detecting an analyte within a specimen. The fluorescence excitation device comprises a sleeve and an excitation light source module. The fluorescence strip is arranged at the one open end of the sleeve. The excitation light source module is arranged at the same opening side of the sleeve and configured for providing an excitation light to excite the fluorescence probe to generate fluorescence. The mobile Internet device comprises an image capturing module and configured for capturing a fluorescence image of the fluorescence strip via the other opening of the sleeve and analyzing fluorescence intensity of the fluorescence image to determine the content of the analyte. The above-mentioned system can be applied to the point of care testing.