![]() Graphical abstract: A simple method for the synthesis of novel micrometer flower-like Cu/ PVP architectures was introduced. ![]() International Nuclear Information System (INIS) Synthesis and characterization of micrometer Cu/ PVP architectures ![]() Electrospun nanocomposites can be alternative candidates for developing novel nano-drug delivery systems with high performance. The incorporation of borneol in the PVP matrix weakens the tensile properties of nanofibers, and the mechanism is discussed. The composites can both enhance the dissolution profiles of borneol and increase its physical stability against sublimation for long-time storage by immobilization of borneol molecules with PVP. Borneol is well distributed in the PVP matrix molecularly to form the amorphous composites, as verified by DSC and XRD results. FESEM observations demonstrate that composite nanofibers with uniform structure could be generated with a high content of borneol up to 33.3% (w/w. ![]() Based on hydrogen bonding interactions and via an electrospinning process, borneol and PVP can form stable nanofiber-based composites. Directory of Open Access Journals (Sweden)įull Text Available The present work investigates the validity of electrospun borneol-polyvinylpyrrolidone ( PVP nanocomposites in enhancing drug dissolution rates and improving drug physical stability. ![]()
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