Multi-component super-molecular hydrogel and preparation method thereof
A supramolecular hydrogel, multi-component technology, applied in chemical method analysis, non-polymer adhesive additives, adhesives, etc., to achieve the effect of strong universality
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Embodiment 1
[0071] Embodiment 1, preparation supramolecular hydrogel
[0072] 1) Take 1 mL of oxidized carbon nanotube aqueous solution with a concentration of 4 mg / mL, add 1 mL of polyethylene polyamine, seal the system and heat it in a water bath at 50 °C for 30 s;
[0073] 2) The resulting mixture was kept at 12°C for 10 minutes to obtain a carbon nanotube / polyethylene polyamine supramolecular hydrogel.
[0074] Then, according to the above steps, by adjusting the mass ratio of oxidized carbon nanotubes to polyethylene polyamine (1:33-3500) and the mass percentage of water (25%-90%), a series of hydrogels with compositions were prepared. .
[0075] figure 1 It is a digital photo of the carbon nanotube / polyethylene polyamine supramolecular hydrogel obtained in Example 1.
[0076] in figure 1 (a) In the hydrogel shown, the concentration of oxidized carbon nanotubes is 0.2wt%, and the water content is 25wt%, 37.5wt%, 50wt%, 62.5wt% and 75wt% from left to right; figure 1 (b) The water...
Embodiment 2
[0081] Embodiment 2, preparation supramolecular hydrogel
[0082] 1) Take 1 mL of oxidized carbon nanotube aqueous solution with a concentration of 4 mg / mL, add 1 mL of branched polyethyleneimine with a molecular weight of 300, seal the system and heat it in a water bath at 50 °C for 30 s;
[0083] 2) The resulting mixture was kept at 12°C for 6 hours to obtain a carbon nanotube / polyethyleneimine supramolecular hydrogel.
[0084] Then, according to the above steps, a series of hydrogels were prepared by adjusting the mass ratio of carbon nanotubes to polyethyleneimine (1:33-3500) and the mass percentage of water (25%-75%).
[0085] A digital photo of a hydrogel of a composition prepared in this example (the concentration of oxidized carbon nanotubes is 0.2wt%, the water content is 50wt%, and the mass ratio of oxidized carbon nanotubes to polyethyleneimine is 1:250) is as follows figure 2 (b) shown.
Embodiment 3
[0086] Embodiment 3, preparation supramolecular hydrogel
[0087] 1) Take 1mL of graphene oxide aqueous solution with a concentration of 3mg / mL, add 1mL of polyethylene polyamine, seal the system and heat it in a water bath at 50°C for 30s;
[0088] 2) The resulting mixture was kept at 12°C for 12 hours to obtain a graphene / polyethylene polyamine supramolecular hydrogel.
[0089] Then, according to the above steps, a series of hydrogels were prepared by adjusting the mass ratio of graphene oxide to polyethylene polyamine (1:33-3500) and the mass percentage of water (25%-90%).
[0090] A digital photo of a composition of hydrogel prepared in this embodiment (the concentration of carbon nanotubes is 0.15wt%, the water content is 50wt%, and the mass ratio of graphene oxide to polyethylene polyamine is 1:333.3 is as follows figure 2 (c) shown.
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