TH17881A3 - Direct preparation of polyvinyldine fluoride nanocomposite sheets for methanol fuel cells - Google Patents

Abstract

A summary of the invention which will appear on the advertisement page ReadFile:------27/03/2020------(OCR)Page 1 of the 1 page summary of the invention of the nanocomposite preparation process. The direct polyvinyldine fluoride for methanol fuel cell consists of the following steps: a solution preparation step for the synthesis of polyvinyl clay fluoride nanocomposites. Synthesis of polyvinyl fluoride nanocomposite fibers by electrospinning process, curing process to dry and maintain the specimen's shape in application process by adopting nanocompoly sheet. Polyvinyldine fluoride for direct use in methanol fuel cells -----07/06/2018------ (OCR) Page 1 of 1 page Summary of the invention of the process of direct preparation of polyvinyldine fluoride nanocomposite for methanol fuel cells consists of the following steps. Synthesis of polyvinyldine fluoride nanocomponents by electrospinning process Annealed to dry and maintain its application form by applying polyvinyldine fluoride nanocomposite sheets in a methanol fuel cell. The process of preparation of polyvinyldine fluoride nanocomposite sheets for direct methanol fuel cells consists of the following steps. Solution for synthesizing polyvinyldine fluoride nanocomposite fibers Step synthesize polyvinyldine fluoride nanocomposite fibers by electrospinning step. Curing to dry and stabilize specimens is an application process by direct application of polyvinylidene fluoride nanocomposite in methanol fuel cells.

Claims (1)

Claims (all), which will not appear on the classifieds page:------27/03/2020------(OCR)Page 1 of 1 Claims Page. 1. The direct preparation of polyvinyldine fluoride nanocomposite sheets for methanol fuel cells consists of the following steps: a. Solution preparation by mixing polyvinyldine fluoride. Fluoride 0.5-5 g in acetone 1-5 g, dimethyl acetamide 0.5-3 g and silicon dioxide 50-1000 mg at 25-60 ° C for 1-2 times. h, then stir the solution well, let it cool to room temperature and continue stirring for another 20-60 minutes. b. The process of synthesizing nano-compoly polyvinyl fluoride fibers for synthetic nanocompoly-poly fibers. Vinyldine fluoride by electrospinning process, the distance between the needle and the support angle 5-30 cm, the size of the cylinder diameter 10-15 cm, the rotation rate of 500-6000 rpm. at a flow rate of 0.1-10 mL/h for 5-180 min at a voltage of 0.1-50 kV let the nanocompoly polyvinylidene fluoride sheet stabilize for 5 -180 min.c. The curing process by applying nanocompolyvinyldine fluoride sheets obtained from the synthesis of polyvinyldine fluoride nanocomposite fibers. .To dry with a temperature of 40-90 degrees Celsius for 5-180 minutes, then let it cool. at room temperature until the nanocompolyvinyldine fluoride sheet was obtained. 2. Nanocomposite polyvinyldine fluoride for methanol fuel cells directly obtained by claim method 1 where application by using polyvinylidene fluoride nanocomposite sheet Vinyldine fluoride for direct use in methanol fuel cells -----07/06/2018------(OCR ) page 1 of the number 1 claim page 1. The process of preparation of polyvinyldine fluoride nanocomposite sheets for direct methanol fuel vessel cells consists of the following steps: a. Preparation of solutions by mixing polyvinyl Codeine fluoride 0.5-5 g in acetone 1-5 g, dimethyl acetamide 0.5-3 g and silicon dioxide 50-1000 mg at 25-60 ° C for a time. 1-2 hours, then stir the solution well, let it cool to room temperature and continue stirring for another 20-60 minutes. b. Process of synthetic fibers for polyvinyldine fluoride nanocomposite fibers. Posivinyldine fluoride nanocomposite by electrospinning process, the distance between the needle to the bracket 5-30 cm, the size of the cylinder support diameter 10-15 cm, the rotation rate. 500-6000 rpm at a flow rate of 0.1-10 ml/hour for 5-180 minutes at a voltage of 0.1-50 kV, allowing the polyvinyldine fluorescent nanocomposite sheet. Rid stabilized for 5-180 min. C. Curing process by using polyvinyldine fluoride nanocomposite sheet obtained from polyvinyldine nanocomposite fiber synthesis step. Fluoride b. to dry with a temperature of 40-90 degrees Celsius for 5-180 minutes, then let it cool. at room temperature until polyvinyldine fluoride nanocomposite sheets are obtained. 2. Polyvinyldine fluoride nanocomposite sheet for methanol fuel cell directly obtained by claim process. 1. Where applied by direct application of polyvinyldine fluoride nanocomposite in methanol fuel cell------------ 1. Process for direct preparation of polyvinyldine fluoride nanocomposite sheets for methanol fuel cells. It consists of the following steps: a. Solution preparation process by mixing 0.5-5 g polyvinyldine fluoride in 1-5 g acetone. Dimethyl acetamide 0.5-3 g and silicon dioxide 50-1000 mg at 25-60 degrees Celsius for 1-2 hours, then stir the solution well, let it cool to room temperature and stir. Continue for another 20-60 minutes. b. The process of synthesizing polyvinyldine fluoride nanocomposite fibers Polyvinyldine fluoride by electrospinning process by distance between dark To the support scene 5-30 cm., the size of the diameter of the cylindrical support bracket 10-15 cm. Rotation rate 500-6000 rpm at flow rate 0.1-10 ml per hour for 5-180 minutes at Voltage 0.1-50 kV allows polyvinyldine fluoride nanocomposite sheet to stabilize. Time 5-180 minutes C. The curing process by using polyvinyldine fluoride nanocomposite sheets obtained from the synthetic process. Polyvinyldine fluoride nanocomposite fibers b. to dry with a temperature of 40-90 degrees Celsius. For 5-180 minutes, then let cool at room temperature until polyvinyl fluoride nanocomposite sheets are obtained. codeine fluoride for use in cells direct methanol fuel