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Tổng hợp và Đặc trưng Nanostructures Bạc Hình Decahedron Bằng Bức Xạ Gamma và Ứng Dụng Kháng Khuẩn
Tóm tắt
Trong nghiên cứu hiện tại, một cấu trúc nano bạc hình decahedron (D-AgNs) đã được tạo ra thành công trong dung dịch nước với sự hiện diện của Polyvinylpyrrolidone (PVP) như một tác nhân bảo vệ thông qua phương pháp bức xạ gamma mà không cần sử dụng tác nhân khử. D-AgNs tổng hợp được đã được đặc trưng bằng nhiều công cụ phân tích như quang phổ UV-Vis, SEM, XRD, HRTEM, EDX và FTIR. Quang phổ hấp thụ UV-Vis cho thấy các đỉnh cộng hưởng Plasmon bề mặt (SPR) đáng kể trong khoảng 350–600 nm, cho thấy rằng D-AgNs dạng keo đã được tổng hợp thành công. Hình ảnh HRTEM cho thấy các hình dạng decahedral phân tán đồng đều và tách biệt tốt khỏi nhau. Các hạt nano được sản xuất đã được ổn định hiệu quả bởi PVP thông qua các tương tác, điều này được xác nhận bởi phân tích FTIR. Việc tổng hợp D-AgNs bằng bức xạ gamma đã được thực hiện, ngoài ra tiềm năng kháng khuẩn, hoạt động chống biofilm và tác động của tia UV cũng đã được đánh giá. Hơn nữa, các thí nghiệm rò rỉ protein và hình ảnh SEM đã được sử dụng để phân tích cơ chế phản ứng kháng khuẩn. Một loạt vi khuẩn, bao gồm S. aureus, P. aeruginosa và C. albicans, đã bị D-AgNs ức chế. Trong thử nghiệm chống biofilm, D-AgNs đã ức chế sự hình thành biofilm của S. aureus (89,58%), E. coli (80,35%) và P. aeruginosa (78,45%). Sau khi điều tra ảnh hưởng của D-AgNs đến đường cong tăng trưởng của S. aureus, chúng tôi kết luận rằng D-AgNs ảnh hưởng đến đường cong tăng trưởng của S. aureus, và đường cong đã giảm xuống còn 0,125. Sự hình thành các lỗ trong màng tế bào của S. aureus được giải thích bởi việc lượng protein tế bào được giải phóng từ vi khuẩn tỷ lệ thuận trực tiếp với nồng độ của D-AgNs, nồng độ này được xác định là 259,25 µg/ml tại nồng độ bằng 1,0 mg/mL.
Từ khóa
#nanosilver #bức xạ gamma #cấu trúc nano #kháng khuẩn #hoạt động chống biofilm #phân tích quang phổTài liệu tham khảo
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