Preparation method of porous carbon loaded tungsten carbide composite material

A composite material and tungsten carbide technology, applied in the field of material science, can solve the problems of low hydrogen evolution catalytic activity and poor stability, and achieve the effects of short process flow, prevention of agglomeration and growth, and large specific surface area.

Active Publication Date: 2020-08-18
UNIV OF SCI & TECH BEIJING
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] The purpose of the present invention is to improve the problems of low hydrogen evolution catalytic activity and poor stability of existing tungsten carbide catalysts, and design a composite carbon-based precursor for the synthesis of various metal oxides (tungsten oxide + other metal oxides) by solution combustion, and then Subsequent high-temperature carbonization reaction and washing in acidic solution to remove oxides to obtain porous carbon-supported tungsten carbide composite materials, thus developing a fast, simple, efficient and low-cost method for preparing new tungsten carbide catalysts

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0028] Weigh 4.587g ammonium tungstate, 1.779g magnesium nitrate, 2.273g zinc nitrate, 1.968g calcium nitrate, 1.125g glycine and 1.72g glucose into a 500ml beaker, and add deionized water and stir to obtain a clear aqueous solution. The solution is heated on a resistance furnace, and a solution combustion synthesis reaction occurs, and a fluffy precursor can be obtained after the reaction. The precursor was placed in a tube furnace and fed with N 2 (The gas flow rate is 120mL / min) for high-temperature carbonization reaction, raising the temperature to 900°C at a rate of 6°C / min, and keeping it for 3 hours. After the reaction, a composite material of MgO / CaO / WC / C is obtained, and ZnO and carbon react and pyrolyze Pores are created on carbon substrates for the high-temperature evaporation of Zn simple substance. Immerse in the prepared 1.5M excess hydrochloric acid solution beaker, soak and let it stand for 30 hours, filter the supernatant, remove the lower layer of powder, wa...

Embodiment 2

[0030] Weigh 3.058g of ammonium metatungstate, 1.186g of magnesium nitrate, 1.515g of zinc nitrate, 1.312g of calcium nitrate, 0.65g of urea and 1.35g of glucose into a 300ml beaker, add deionized water and place it on a resistance furnace while heating slowly Stir to obtain a clear aqueous solution after stirring evenly, then put it into a muffle furnace and heat it at a constant temperature of 200°C for 1 hour to generate a solution combustion synthesis reaction. The powder is placed in a tube furnace under an Ar atmosphere (the gas flow rate is 150mL / min), and the heating rate is raised to 800°C at a rate of 7°C / min for carbonization for 4 hours to obtain a composite powder of MgO / CaO / WC / C, ZnO It reacts with carbon and pyrolyzes Zn simple substance to evaporate at high temperature to create pores on the carbon substrate. After re-grinding, immerse in the prepared 1.0M excess hydrochloric acid solution beaker, soak and let it stand for 48 hours, filter the supernatant, take...

Embodiment 3

[0032]Weigh 3.058g of ammonium metatungstate, 2.373g of magnesium nitrate, 1.92g of citric acid and 3.923g of sucrose into a 300ml beaker, add deionized water to obtain a clear aqueous solution, put the solution on a resistance furnace for heating, and In the solution combustion synthesis reaction, the solution is heated from the beginning until the gel is covered with a rubber stopper, and a fluffy precursor can be obtained after the reaction. Put the precursor into a tube furnace and feed it with Ar (the flow rate of the gas is 100mL / min) to carry out high-temperature carbonization reaction, raise the temperature to 1100°C for 2 hours at a rate of 10°C / min, and then cool with the furnace to obtain MgO Composite material of / WC / C. Immerse in the prepared 0.5M excess hydrochloric acid solution beaker, soak and let it stand for 40 hours, filter the supernatant, remove the lower layer of powder, wash with deionized water in a high-speed centrifuge for 4 times, and dry in a dryin...

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PUM

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Abstract

The invention discloses a preparation method of a porous carbon loaded tungsten carbide composite material, and belongs to the technical field of material science. According to the material, tungstencarbide nanoparticles are uniformly loaded on a carbon skeleton with a large number of network pore channel structures in a high-dispersion manner. The specific preparation method comprises the following steps: taking metal nitrate, a tungsten source, fuel and a soluble organic carbon source as raw materials; carrying out a solution combustion synthesis reaction to obtain a precursor in which tungsten oxide and other metal oxides are uniformly embedded in a carbon matrix, and carrying out subsequent high-temperature carbonization and acid washing to remove the oxides by using a synergistic coupling pore-forming effect, thereby obtaining the porous carbon-loaded tungsten carbide material with the specific surface area of 1,000 m < 2 > / g or above. According to the invention, raw materials are easy to obtain, the process is simple, and the equipment requirement is low; the prepared porous carbon-loaded tungsten carbide powder material is fine in particle, narrow in particle size distribution and good in dispersity, has high specific surface area and pore volume, is uniformly loaded with tungsten carbide particles, is not easy to fall off, can remarkably reduce the cost of an electrocatalyst and improve the hydrogen evolution catalytic performance of the electrocatalyst as a platinum-substituted catalyst, and has a good industrial application prospect.

Description

technical field [0001] The invention belongs to the technical field of material science, and in particular relates to designing a method for preparing a porous carbon-loaded tungsten carbide composite material with a high specific surface area. Background technique [0002] Energy shortage and environmental pollution are two major problems facing the development of human society since the 21st century. Therefore, it is imperative to find clean and renewable energy and develop efficient energy storage and conversion technologies. Hydrogen energy is regarded as the most ideal energy carrier due to its high calorific value, high energy density (143KJ / g) and abundant reserves. In recent years, electrolysis of water to produce H 2 (HER) is considered to be an ideal method to prepare clean hydrogen energy, which is of great significance to alleviate the energy crisis and reduce the emission of greenhouse gases. The core problem of this method is to develop efficient, stable and ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B01J27/22B01J35/10B01J21/18B01J37/08B01J37/06B82Y30/00B82Y40/00C25B1/04C25B11/06
CPCB01J21/18B01J27/22B01J35/0033B01J35/1028B01J35/1047B01J37/06B01J37/08C25B1/04C25B11/091Y02E60/36
Inventor 吴昊阳秦明礼王倩玉周士棋贾宝瑞曲选辉
Owner UNIV OF SCI & TECH BEIJING
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