A kind of core shell structure nanocapsule and its preparation method and application
A technology of nanocapsules and core-shell structure, applied in the direction of microcapsules, capsule delivery, nanocapsules, etc., to achieve good colloidal stability, significant technological progress, and easy-to-obtain products
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Embodiment 1
[0029] Weigh 0.15 g ammonium tetrathiotungstate, 0.30 g PVP (molecular weight: 360 kDa) and 0.15 g ferric chloride hexahydrate, mix with 30 mL N,N-dimethylformamide, stir at room temperature for 30 minutes to obtain orange solution. The resulting solution was transferred to a 100 mL stainless steel reaction vessel lined with p-polyphenylene and sealed. The reactor was placed in a high-temperature oven for heat treatment at 220 °C for 12 h. After cooling down to room temperature naturally, the reaction mixture was centrifuged (12000 r / min, 5 min), and washed once and three times with 50% ethanolamine solution and distilled water respectively. , to get the product Fe 3 o 4 @WS 2 -PVP nanocapsules.
Embodiment 2
[0031] Get the Fe prepared in a little embodiment 1 3 o 4 @WS 2 -PVP nanocapsules, observe the microscopic appearance of the material through TEM: disperse an appropriate amount of nanocapsules in absolute ethanol, and after ultrasonically dispersing evenly, immerse the copper mesh coated with carbon film in the above-mentioned absolute ethanol. After the samples were dried naturally, they were observed and photographed by TEM (the operating voltage of TEM was 200 kV). It can be seen from Figure (1) that the material structure obtained in Example 1 is an elliptical nanocapsule structure composed of a two-dimensional layered structure and zero-dimensional nanoparticles.
Embodiment 3
[0033] Get respectively the Fe prepared in a little embodiment 1 3 o 4 @WS 2 -PVP nanomaterials, analysis of its composition and structure. The valences of W, S and Fe elements in the nanocapsules were characterized by ESCAlab250 X-ray photoelectron spectrometer (XPS) from Thermal Scientific. The excitation source is monochromator Al Kα X-rays (λ = 0.8339 nm), the energy is 1486 eV, the line width is 0.9 eV, and the power is 150 W. The binding energy was corrected with the 1s peak of C (284.8 eV). The crystal structure of the XRD diffraction pattern of the nanocapsules was investigated using XRD (Rigaku D / max-2200PC, Japan). With Cu2Kα rays as the light source, the operating voltage is 40kV, the current is 200 mA, and the scanning angle (2θ) ranges from 3° to 70°. Characterization of Fe before and after drug loading using FTIR (Nicolet Nexus 670 infrared spectrometer) 3 o 4 @WS 2 -PVP nanocapsule structure, take a little Fe 3 o 4 @WS 2 -PVP and Fe loaded with DOX 3...
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