Method for preparing water-dispersible polypyrrole conducting nanoparticle by utilizing rosin soap
A technology of conducting nanometer and rosin soap, applied in nanotechnology and other directions, can solve problems such as poor electrical conductivity, and achieve the effects of short synthesis time, simple preparation process and high electrical conductivity
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Embodiment 1
[0012] (1) Dissolve 1 part by mass of the oxidant ammonium persulfate in 100 parts by mass of deionized water, then add 1 part by mass of sodium rosinate and stir and mix evenly to prepare a mixed solution.
[0013] (2) Add 1 mass part of pyrrole monomer to the mixed solution prepared in step (1) and stir and react at 25°C for 5 hours to make pyrrole oxidatively polymerized, then suction filter, and the resulting product is washed with deionized water until The filtrate is neutral, and the obtained filter cake is vacuum-dried at 40° C., and finally pulverized to obtain a black powder, which is water-dispersible polypyrrole conductive nanoparticles.
[0014] The conductivity at room temperature of the water-dispersible polypyrrole conductive nanoparticles prepared in this example was determined to be 3.3 S / cm.
Embodiment 2
[0016] (1) Dissolve 4 parts by mass of the oxidant ammonium persulfate in 200 parts by mass of deionized water, then add 20 parts by mass of sodium abietate and stir and mix evenly to prepare a mixed solution.
[0017] (2) Add 1 mass part of pyrrole monomer to the mixed solution prepared in step (1) and stir and react at 0°C for 10 hours to make pyrrole undergo oxidative polymerization, then suction filter, and the resulting product is washed with deionized water until The filtrate is neutral, and the obtained filter cake is vacuum-dried at 40° C., and finally pulverized to obtain a black powder, which is water-dispersible polypyrrole conductive nanoparticles.
[0018] The conductivity at room temperature of the water-dispersible polypyrrole conductive nanoparticles prepared in this example was determined to be 15 S / cm.
Embodiment 3
[0020] (1) Dissolving 2 parts by mass of the oxidizing agent ammonium persulfate in 100 parts by mass of deionized water, then adding 10 parts by mass of potassium abietate and stirring and mixing uniformly to prepare a mixed solution.
[0021] (2) Add 1 mass part of pyrrole monomer to the mixed solution prepared in step (1) and stir and react at 0°C for 8 hours to make pyrrole undergo oxidative polymerization, then suction filter, and the resulting product is washed with deionized water until The filtrate is neutral, and the obtained filter cake is vacuum-dried at 40° C., and finally pulverized to obtain a black powder, which is water-dispersible polypyrrole conductive nanoparticles.
[0022] The conductivity at room temperature of the water-dispersible polypyrrole conductive nanoparticles prepared in this example was determined to be 6.4 S / cm.
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