47results about How to "Improve crystallization properties" patented technology

The present invention is generally directed to methods of producing an increase in the enrichment or recovery of preferred forms of IgG proteins. More particularly, the invention relates to subjecting preparations of such recombinant IgG proteins with a reduction/oxidation coupling reagent and optionally a chaotropic agent.

The invention provides a modified lithium manganese oxide electrode material for a lithium ion secondary battery, which is characterized in that the general formula is Li(4-x)A(x+y)Mn(5-y)O12.epsilonBOz. The synthesizing method comprises the following steps: weighing and mixing raw materials evenly in accordance with the stoichiometric ratio in the general formula and then adding the mixture of the raw materials to a container; adding an oxidizing solution, evening mixing and reacting for over 10 minutes, and then taking the materials out, washing and drying; and then carrying out high-temperature calcination and reaction for 1-30 hours at a temperature of 400-1200 DEG C under an oxygen-contained atmosphere, and cooling to obtain the modified lithium manganese oxide electrode material. Compared with an existing electrode material and a synthesizing technology, the modified lithium manganese oxide electrode material produced in the production process can improve the crystalline characteristic and the purity of products as well as the specific capacity, the initial coulomb efficiency, the cyclical stability and other characteristics in electrochemical property; and the modified lithium manganese oxide electrode material improves performances of the lithium ion battery, promotes the wider applications of the lithium ion battery and has significant economic meanings and practical value.

A crystallization method includes providing a substrate having a silicon thin film; positioning a laser mask having first to fourth blocks on the substrate, each block having a periodic pattern including a plurality of transmitting regions and a blocking region; and crystallizing the silicon thin film by irradiating a laser beam through the laser mask. A polycrystalline silicon film crystallized by this method is substantially free from a shot mark, and has uniform crystalline characteristics.

A memory cell (33) in which a variable resistive element (31) and a Schottky diode (32) are connected in series to each other. In a memory device, bit lines (BL0, BL1 and BL2) are arranged in a column direction, one end of the bit line (BL) is connected to a bit line decoder (34), and the other end thereof is connected to a reading circuit (37). Word lines (WL0, WL1 and WL2) are arranged in a row direction so as to intersect with the bit lines (BL), and both ends of the word line (WL) are connected to word line decoders (35 and 36). In other words, the bit line (BL) and the word line (WL) are arranged in a matrix and a memory cell (33) is located at a position where the bit line (BL) and the word line (WL) intersect with each other, which constitutes the memory device. An influence of a reading disturbance in the memory cell (33) and the memory device is reduced.

The invention relates to a thermoplastic polyurethane elastomer composite material, a preparation method and an application thereof. The composite material comprises the following components: a hypocrystalline thermoplastic polyurethane elastomer and filler through surface treatment. The filler is a mixture of layered filler and granular filler in a mass ratio of 0.1: 1 to 5: 1, preferably 0.5:1 to 3:1. The composite material is prepared by fusing and blending, so that the crystallizing characteristic of a thermoplastic polyurethane elastomer product is improved, a low shrink thermoplastic polyurethane elastomer is obtained, the property of the material is ensured stable, and the obtained composite material can be used for a quick forming method of fused processing, for example, a fusing deposition quick forming method or a selective laser sintering method.

The invention provides a method for improving frost resistance of edible fat by the inventor. In the process of refining edible fat particularly in the process of producing palm oil, a method of performing refinement and then performing fractionation is adopted, and a deodorizing technology in the refining process is specially adjusted, so that the purpose of adjusting the crystallization characteristics of palm liquid oil raw materials is achieved, so that the fractionation effect is obviously improved, and the quality of products is improved.