Ratiometric fluorescent probe for bivalent copper ions, as well as preparation method and application of ratiometric fluorescent probe
A technology of ratiometric fluorescent probes and divalent copper ions, applied in the direction of fluorescence/phosphorescence, chemical instruments and methods, luminescent materials, etc., to achieve the effect of simple preparation method, no equipment, and simple steps
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Embodiment 1
[0036] 1) Synthesis of cadmium telluride quantum dots: under an inert gas atmosphere (argon), tellurium powder and NaBH 4 Stir in water, then add CdCl at pH 10 2 React with the mixed solution of TGA to control the Cd2 in the reaction product + : TGA: Te2 ? The molar ratio is 1:2.5:0.5;
[0037] 2) Synthesis of amino-modified carbon quantum dots: Centrifuge the citric acid aqueous solution with a concentration of 0.04g / ml after high temperature treatment, take the supernatant, and mix the supernatant with ammonium hydroxide at a volume ratio of 1:48 And carry out high-temperature treatment, add acetone after cooling down to room temperature, and then centrifuge, take the supernatant and place it in a vacuum drying oven to volatilize the acetone;
[0038] 3) Doped SiO 2 Synthesis of blue fluorescent carbon quantum dots of nanoparticles: Mix the resultant of step 2) with 0.5% (W / V) chitosan solution and add it to the mixed solution of cyclohexane, Triton X-100, n-hexanol St...
Embodiment 2
[0041] 1) Synthesis of cadmium telluride quantum dots: in an inert gas atmosphere (argon), tellurium powder and NaBH 4 Stir in water, then add CdCl at pH 10 2 React with the mixed solution of TGA to control the Cd2 in the reaction product + : TGA: Te2 ? The molar ratio is 1:2.5:0.5;
[0042] 2) Synthesis of amino-modified carbon quantum dots: Centrifuge the citric acid aqueous solution with a concentration of 0.04g / ml after high temperature treatment, take the supernatant, and mix the supernatant with ammonium hydroxide at a volume ratio of 1:36 And carry out high-temperature treatment, add acetone after cooling down to room temperature, and then centrifuge, take the supernatant and place it in a vacuum drying oven to volatilize the acetone;
[0043] 3) Doped SiO 2 Synthesis of blue fluorescent carbon quantum dots of nanoparticles: Mix the resultant of step 2) with 0.5% (W / V) chitosan solution and add it to the mixed solution of cyclohexane, Triton X-100 and n-hexanol St...
Embodiment 3
[0046] 1) Synthesis of cadmium telluride quantum dots: in an inert gas atmosphere (argon), tellurium powder and NaBH 4 Stir in water, then add CdCl at pH 10 2 React with the mixed solution of TGA to control the Cd2 in the reaction product + : TGA: Te2 ? The molar ratio is 1:2.5:0.5;
[0047] 2) Synthesis of amino-modified carbon quantum dots: centrifuge the citric acid aqueous solution with a concentration of 0.04g / ml after high temperature treatment, take the supernatant, and mix the supernatant with ammonium hydroxide at a volume ratio of 1:50 And carry out high-temperature treatment, add acetone after cooling down to room temperature, and then centrifuge, take the supernatant and place it in a vacuum drying oven to volatilize the acetone;
[0048] 3) Doped SiO 2 Synthesis of blue fluorescent carbon quantum dots of nanoparticles: Mix the resultant of step 2) with 0.5% (W / V) chitosan solution and add it to the mixed solution of cyclohexane, Triton X-100 and n-hexanol St...
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