Abstract: A plurality of metal chalcogenide nanocrystals AnXm having an optical absorption feature above 12 ?m and having a size superior to 20 nm. The metal A is selected from Hg, Pb, Ag, Bi, Cd, Sn, Sb or a mixture thereof. The chalcogen X is selected from S, Se, Te or a mixture thereof. The subscripts n and m are independently a decimal number from 0 to 5 and are not simultaneously equal to 0. Also, a method for manufacturing the plurality of metal chalcogenide nanocrystals AnXm, a material, a photoabsorptive film, a photoconductor, photodetector, photodiode or phototransistor, a device, the use of the plurality of metal chalcogenide nanocrystals, and a reflective or transmission filter.

Abstract: A mechanical parking garage includes a plurality of pallets, a parking system including a rail track unit and a plurality of tower units, and a transporting system. Each tower unit is mounted on and slidable along the rail track unit, and has a plurality of first parking spaces, each of which is disposed for storing one of the pallets. The transporting system includes a rail mechanism mounted above the parking system, and a transporting mechanism mounted to the rail mechanism and being horizontally movable. Any adjacent two of the tower units are movable relative to each other between approximate state and a distal state. At the distal state, the adjacent two of the tower units define a transporting aisle therebetween.

Abstract: The present invention provides a DP to HDMI converter, wherein the DP to HDMI converter comprises a receiving circuit, a signal converter and a transmitter. In the operations of the DP to HDMI converter, the receiving circuit is configured to receive a plurality of input signals, wherein the input signals comprise a plurality of DP signals configured to generate an image frame with variable frame rate. The signal converter is configured to receive the plurality of input signals to generate a plurality of HDMI signals, wherein the signal converter includes a synchronization signal generator for generating a vertical synchronization signal and a horizontal synchronization signal of the plurality of HDMI signals according to a portion of the input signals. The transmitter is configured to output the plurality of HDMI signals.

Abstract: A material placement device is configured for placement of a plurality of materials from the preceding process, and includes a slide rail assembly configured to be disposed on one side of an aisle of a place, a plurality of storage units slidably disposed on the slide rail assembly and movable toward or away from each other, and a plurality of fixing units each of which detachably fixes two adjacent ones of the storage units. Each storage unit includes a storage portion defining a plurality of storage spaces for receiving and storing the materials.

Abstract: Disclosed is a color conversion layer including at least one light emitting material including at least one composite particle surrounded partially or totally by at least one surrounding medium; wherein the light emitting material is configured to emit light in response to an excitation and the at least one composite particle includes a plurality of nanoparticles encapsulated in an inorganic material; and wherein the inorganic material has a difference of refractive index compared to the at least one surrounding medium superior or equal to 0.02 at 450 nm. Also disclosed is an illumination source and a display apparatus.

Abstract: A method for obtaining at least one particle, including: (a) preparing solution A including at least one precursor of at least one of Si, B, P, Ge, As, Al, Fe, Ti, Zr, Ni, Zn, Ca, Na, Ba, K, Mg, Pb, Ag, V, Te, Mn, Ir, Sc, Nb, Sn, Ce, Be, Ta, S, Se, N, F, and Cl; (b) preparing aqueous solution B; (c) forming droplets of solution A; (d) forming droplets of solution B; (e) mixing droplets; (f) dispersing mixed droplets in a gas flow; (g) heating dispersed droplets to obtain the at least one particle; (h) cooling the at least one particle; and (i) separating and collecting the at least one particle. The aqueous solution is acidic, neutral, or basic. In step (a) and/or step (b) at least one colloidal suspension of a plurality of nanoparticles is mixed with the solution. Also, a device for implementing the method.

Abstract: A device for making foam pipes and a method for making the foam pipes includes the use of critical micro foaming injection molding. The foaming agent and the foaming material are mixed and controlled under specific temperature to obtain micro bubbles in the wall of the foam pipes which need less material when compared with PVC pipes of same specification such that manufacturing cost is reduced.

Abstract: The invention disclosed a high precision decade capacitor standard box. It comprises 6 sets of physical capacitors, 6 changeover switches, and output ports. Each set of physical capacitors include 4 physical capacitors, at least one capacitor has single-unit capacitance. The changeover switch implements the decade encoding of all the combinations of 4 physical capacitors. The changeover switch has input terminals that connect to two electrodes of physical capacitors, and output terminals that connect to the output ports of capacitor standard box to provide the selected capacitance. The capacitance values can be selected any integer from 0 to 10 times of single-unit capacitance. The decade encoding of all the combinations of 4 capacitors can reduce the number of required capacitors and wires for connecting capacitors. The open and short compensation are adopted in this decade capacitor standard, which minimizes error, improve accuracy, and is convenient for measurement, transport, and field application.

Abstract: The disclosure relates to the field of measurement and calibration of capacitance, especially the instrument of transferring capacitance. A wide range capacitor standard box comprises a chassis, 36 physical capacitors, and 4 changeover switches. Output ports are on the front panel of the chassis. 4 dial-switches select the output capacitance in values of 1, 2, 5 times of single-unit capacitance. The changeover switch has input terminals that connect to two electrodes of the physical capacitors, and output terminals that connect to the output ports. Comparing to decade capacitor standard boxes, the present box realizes capacitance outputs from 1 pF˜500 mF in values of 1, 2, 5 times of single-unit capacitance. The present box significantly extends the measurement range of capacitance, and makes the capacitor standard box smaller and lighter. By introducing a compensation function for open and short circuits, it is convenient and suitable for precision measurement.

Abstract: A material placement device is configured for placement of a plurality of materials from the preceding process, and includes a slide rail assembly configured to be disposed on one side of an aisle of a place, a plurality of storage units slidably disposed on the slide rail assembly and movable toward or away from each other, and a plurality of fixing units each of which detachably fixes two adjacent ones of the storage units. Each storage unit includes a storage portion defining a plurality of storage spaces for receiving and storing the materials.

Abstract: Disclosed is a composite particle including a plurality of nanoparticles encapsulated in an inorganic material, wherein the plurality of nanoparticles is uniformly dispersed in the inorganic material. Also disclosed is relates to a light emitting material, a support supporting at least one composite particle and/or a light emitting material and an optoelectronic device including at least one composite particle and/or a light emitting material.

Abstract: Disclosed is a color conversion layer including at least one light emitting material including at least one composite particle surrounded partially or totally by at least one surrounding medium; wherein the light emitting material is configured to emit light in response to an excitation and the at least one composite particle includes a plurality of nanoparticles encapsulated in an inorganic material; and wherein the inorganic material has a difference of refractive index compared to the at least one surrounding medium superior or equal to 0.02 at 450 nm. Also disclosed is a display apparatus.

Abstract: Disclosed is a color conversion layer including at least one light emitting material including at least one composite particle surrounded partially or totally by at least one surrounding medium; wherein the light emitting material is configured to emit light in response to an excitation and the at least one composite particle includes a plurality of nanoparticles encapsulated in an inorganic material; and wherein the inorganic material has a difference of refractive index compared to the at least one surrounding medium superior or equal to 0.02 at 450 nm. Also disclosed is an illumination source and a display apparatus.

Abstract: Disclosed is an ink including at least one particle including a first material; and at least one liquid vehicle; wherein the particle includes at least one particle including a second material and at least one nanoparticle dispersed in the second material; wherein the first material and the second material have an extinction coefficient less or equal to 15×10?5 at 460 nm. The invention also relates to inks, light emitting materials including at least one ink, patterns including at least one ink, particles deposited on a support, optoelectronic devices including at least one ink and method for depositing an ink on a support.

Abstract: Disclosed is a color conversion layer including at least one light emitting material including at least one composite particle surrounded partially or totally by at least one surrounding medium; wherein the light emitting material is configured to emit light in response to an excitation and the at least one composite particle includes a plurality of nanoparticles encapsulated in an inorganic material; and wherein the inorganic material has a difference of refractive index compared to the at least one surrounding medium superior or equal to 0.02 at 450 nm. Also disclosed is a display apparatus.

Abstract: A device for making foam pipes and a method for making the foam pipes includes the use of critical micro foaming injection molding. The foaming agent and the foaming material are mixed and controlled under specific temperature to obtain micro bubbles in the wall of the foam pipes which need less material when compared with PVC pipes of same specification such that manufacturing cost is reduced.

Abstract: A fabricating method of CMOS transistor includes following steps. A first gate and a second gate are formed on a substrate. A gate insulator is formed on the substrate to cover the first and second gates. A first source, a first drain, a second source, and a second drain are formed on the gate insulator. The first source and the first drain are above the first gate. The second source and the second drain are above the second gate. A first channel layer and a mask layer are formed on the gate insulator. The mask layer is on the first channel layer. The first channel layer is above the first gate and contacts with the first source and the first drain. A second channel layer is formed on the gate insulator. The second channel layer is above the second gate and contacts with the second source and the second drain.

Abstract: A fabricating method of CMOS transistor includes following steps. A first gate and a second gate are formed on a substrate. A gate insulator is formed on the substrate to cover the first and second gates. A first source, a first drain, a second source, and a second drain are formed on the gate insulator. The first source and the first drain are above the first gate. The second source and the second drain are above the second gate. A first channel layer and a mask layer are formed on the gate insulator. The mask layer is on the first channel layer. The first channel layer is above the first gate and contacts with the first source and the first drain. A second channel layer is formed on the gate insulator. The second channel layer is above the second gate and contacts with the second source and the second drain.

Abstract: A fabricating method of CMOS transistor includes following steps. A first gate and a second gate are formed on a substrate. A gate insulator is formed on the substrate to cover the first and second gates. A first source, a first drain, a second source, and a second drain are formed on the gate insulator. The first source and the first drain are above the first gate. The second source and the second drain are above the second gate. A first channel layer and a mask layer are formed on the gate insulator. The mask layer is on the first channel layer. The first channel layer is above the first gate and contacts with the first source and the first drain. A second channel layer is formed on the gate insulator. The second channel layer is above the second gate and contacts with the second source and the second drain.

Abstract: A light source module includes a substrate, a first LED package and a second LED package. The first and second LED packages are disposed on the substrate. The first LED package includes a first blue LED chip and a first phosphor. The first blue LED chip emits light in the range of the wavelength for blue light. The first phosphor is used to convert the wavelength of a portion of the light emitted from the first blue LED chip. The second LED package includes a second blue LED chip and a second phosphor. The second blue LED chip emits light in the range of the wavelength for blue light. The second phosphor is used to convert the wavelength of a portion of the light emitted from the second blue LED chip. The wavelength associated with the second phosphor is greater than that associated with the first phosphor.