A kind of preparation method of aquatic product antibacterial agent
A bacteriostatic agent and aquatic product technology, applied in food ingredients as antimicrobial preservation, meat/fish preservation with chemicals, food science, etc., can solve problems such as poor reaction reproducibility, high energy consumption, and environmental hazards, and achieve High antibacterial activity, good synthesis reproducibility, and efficient reaction
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Embodiment 1
[0027] Embodiment 1 Pyracantha fruit extract biosynthesis of nano-silver
[0028] a, preparation of Pyracantha fruit extract
[0029] Mature Pyracantha fruits were collected, rinsed with tap water, washed with distilled water three times, dried at 60°C to constant weight, ground into powder, and set aside.
[0030] Weigh 2 g of Pyracantha fruit powder, add 20 mL of 30% ethanol solution, and heat to reflux at 40° C. for 1.5 h. After natural cooling, suction filtration under reduced pressure, and centrifugation at 12000 rpm for 10 minutes, finally obtain the ethanol extract of Pyracantha japonicus, which is stored at 4°C for future use.
[0031] b. Biosynthesis of silver nanoparticles
[0032] Take Pyracantha fruit extract 1mL, add 0.01M AgNO 3 Solution 1mL, then add double distilled water 18mL, after stirring evenly, ultrasonic treatment at 100, 200, 400, 800W respectively for 1h, the reaction temperature is controlled at 50°C.
[0033] c, UV-visible spectrophotometer detec...
Embodiment 2
[0035] Example 2 Pyracantha fruit extract biosynthesis of nano-silver
[0036] a, preparation of Pyracantha fruit extract
[0037] Mature Pyracantha fruits were collected, rinsed with tap water, washed with distilled water three times, dried at 60°C to constant weight, ground into powder, and set aside.
[0038] Weigh 2 g of Pyracantha fruit powder, add 20 mL of 100% ethanol solution, and heat to reflux at 90° C. for 30 min. After natural cooling, suction filtration under reduced pressure, and centrifugation at 12000 rpm for 10 minutes, finally obtain the ethanol extract of Pyracantha japonicus, which is stored at 4°C for future use.
[0039] b. Biosynthesis of silver nanoparticles
[0040] Take Pyracantha fruit extract 1mL, add 0.1M AgNO 3 Solution 2mL, then add double distilled water 17mL, stir evenly, 600W ultrasonic treatment 0min, 10min, 20min, 30min, 40min, 60min, reaction control temperature 90℃.
[0041] c, UV-visible spectrophotometer detection of nano-silver
[...
Embodiment 3
[0043] Example 3 Pyracantha fruit extract biosynthesis of nano-silver
[0044] a, preparation of Pyracantha fruit extract
[0045] Mature Pyracantha fruits were collected, rinsed with tap water, washed with distilled water three times, dried at 60°C to constant weight, ground into powder, and set aside.
[0046] Weigh 2 g of Pyracantha fruit powder, add 20 mL of 60% ethanol solution, and heat to reflux at 70° C. for 1 h. After natural cooling, suction filtration under reduced pressure, and centrifugation at 12000 rpm for 10 minutes, finally obtain the ethanol extract of Pyracantha japonicus, which is stored at 4°C for future use.
[0047] b. Biosynthesis of silver nanoparticles
[0048] Take Pyracantha fruit extract 1mL, add 0.01M AgNO 3 Solution 2mL, then add double distilled water 17mL, stir evenly, 600W ultrasonic treatment for 1h, reaction control temperature 75°C.
[0049] c. Transmission electron microscope characterization detection
[0050] Get the biosynthetic nano...
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