Method for preparing nano molybdenum disulfide with fullerene structure
A nano molybdenum disulfide, fullerene structure technology, applied in the direction of molybdenum sulfide, can solve the problems of high cost, unfavorable industrial production, complex process, etc., and achieve the effects of low cost, easy control and high reaction efficiency
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[0031] Fig. 1 shows the schematic diagram of the preparation device structure of nano-molybdenum dioxide, which is composed of two independently heated tube furnaces, wherein 1# furnace is the gasifier of molybdenum trioxide, and 2# furnace is the reduction of molybdenum dioxide Reactor.
[0032] After the two quartz glass tubes pass through the 1# furnace, they meet in the 2# furnace. The 1# furnace provides molybdenum trioxide gas, and the gasification amount of molybdenum trioxide is controlled by controlling the carrier gas flow and the gasification temperature of the 1# furnace. , by controlling the temperature of the 2# furnace to control the reduction reaction temperature conditions of molybdenum dioxide, the generated molybdenum dioxide is deposited on the ceramic filter in the quartz tube in the 2# furnace, after the reduction reaction is completed, the 2# furnace cools down to room temperature Take it out to obtain nanometer molybdenum dioxide product.
[0033] The ...
Embodiment 1
[0036] A kind of preparation method of nanomolybdenum disulfide with fullerene structure, its preparation process is to adopt two-step method, carry out according to the following steps successively:
[0037] 1) First, industrial molybdenum trioxide is used as raw material, argon is used as carrier gas, hydrogen is used as reducing agent, and nanometer molybdenum dioxide particles are generated through gas phase reaction;
[0038] 2) Reaction of nano-molybdenum dioxide and elemental sulfur under high-temperature self-pressurized conditions to generate nano-molybdenum disulfide powder materials with a fullerene structure;
[0039] 3) The molybdenum dioxide is a nanoparticle directly formed by the reaction of molybdenum trioxide at 700-1000°C with hydrogen at 400-950°C. Secondly, the molybdenum disulfide of the fullerene structure is a nanometer Molybdenum oxide and elemental sulfur are synthesized by self-pressurized reaction at a temperature of 500-950°C in a container;
[0040...
Embodiment 2
[0043] A kind of preparation method of described nano-molybdenum disulfide with fullerene structure is carried out according to the following steps successively:
[0044] 1) First, industrial molybdenum trioxide is used as raw material, argon is used as carrier gas, hydrogen is used as reducing agent, and nanometer molybdenum dioxide particles are generated through gas phase reaction;
[0045] 2) Reaction of nano-molybdenum dioxide and elemental sulfur under high-temperature self-pressurized conditions to generate nano-molybdenum disulfide powder materials with a fullerene structure;
[0046] 3) The molybdenum dioxide is a nanoparticle directly formed by the reaction of molybdenum trioxide at 720-980°C with hydrogen at 420-930°C. Secondly, molybdenum disulfide with a fullerene structure is a nanometer Molybdenum oxide and elemental sulfur are synthesized by self-pressurized reaction at a temperature of 550-930°C in a container;
[0047] 4), the synthetic reaction of described...
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