Preparation method of PT-based catalyst for fuel cell based on Prussian blue
A Prussian blue and fuel cell technology, applied in chemical instruments and methods, physical/chemical process catalysts, battery electrodes, etc., can solve the problems of cathode catalyst activity and stability, and achieve the goal of improving electrocatalytic activity and increasing stability Effect
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Embodiment 1
[0038] Get 2.8mL chloroplatinic acid solution (Pt content: 3.8mgPtmL -1 ) was dissolved in 100 mL of water, 150 μL of polydiallyl dimethyl ammonium chloride was added as a stabilizer, and stirred for 30 min. Add strong reducing agent NaBH 4 Solution (20mgNaBH 4 dissolved in 10 mL of water), and continued stirring at room temperature for 2 h to completely reduce the Pt precursor to obtain the Pt nanoparticle colloid.
[0039] The Pt nanoparticles are uniform in size, and the particle size distribution is about 2.3nm, such as Figure 12 So not.
Embodiment 2
[0041] Take 4.6mL ferric chloride solution (5mmolL -1 ) was diluted with 100 mL of water. To which was added 1.5mL of H 2 o 2 (30wt%) after ultrasonication for 20s, immediately add 3.4mL potassium ferrocyanide solution (5mmolL -1 ), sonicated for 2 hours to obtain PB colloid. according to figure 2 In the preparation process shown, the Pt colloidal solution and PB colloidal solution in Example 1 were mixed for 24 hours to obtain a Pt-PB composite colloidal solution, 35 mg of VulcanXC-72R was added to it, fully ultrasonicated for 2 hours, and stirred for 24 hours. In order to deposit the Pt-PB composite colloidal particles on the surface of the carrier, it is necessary to add KNO 3 , the precipitant concentration is 0.5molL -1 . Stirring is continued for 24 hours to deposit the Pt-PB composite colloidal particles on the surface of the carrier, the catalyst is suction filtered or centrifuged, washed and dried, and the Pt-based composite catalyst based on Prussian blue can...
Embodiment 3
[0043] Take 2.3mL ferric chloride solution (5mmolL -1 ) was diluted with 100 mL of water. To which was added 1.5mL of H 2 o 2 (30wt%) after ultrasonication for 20s, immediately add 1.7mL potassium ferrocyanide solution (5mmolL -1 ), sonicated for 2 hours to obtain PB colloid. according to figure 2 In the preparation process shown, Pt colloid solution and PB colloid solution in Example 1 were mixed for 24 hours to obtain Pt-PB composite colloid solution, 37.5mg VulcanXC-72R was added to it, fully ultrasonicated for 2 hours, and stirred for 24 hours. In order to deposit the Pt-PB composite colloidal particles on the surface of the carrier, it is necessary to add KNO 3 , the precipitant concentration is 0.5molL -1 . Stirring is continued for 24 hours to deposit the Pt-PB composite colloidal particles on the surface of the carrier, the catalyst is suction filtered or centrifuged, washed and dried, and the Pt-based composite catalyst based on Prussian blue can be obtained. ...
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