Nanofiber has been widely used in numerous fields for its good advantages such as large surface area and porosity.However,the relationship between nanofiber structure and coaxial electrospinning process is still not c...Nanofiber has been widely used in numerous fields for its good advantages such as large surface area and porosity.However,the relationship between nanofiber structure and coaxial electrospinning process is still not clear and deserved to be studied.In this work,a kind of polyurethane/nickel(PU/Ni)nanofiber with core-shell structures was developed,and the effects of electrospinning parameters on the properties of nanofiber were evaluated.The results showed that the optimized parameters of core-shell electrospinning speeds were 1 mL/h(core)and 1 mL/h(shell),respectively.Sample c with the core-shell electrospinning speed ratio of 1∶1,exhibited the relatively smooth surface,good orientation,and bonding points.It also had the largest tensile strength at 99 cN,tensile elongation at 44.86%,and the best electricity conductivity,which showed great potential in the application of nanofiber fields.展开更多
Composite nanofibrous mats consisting of poly( L-lactideco-ε-caprolactone)( PLCL) and collagen type I( COL) were fabricated by electrospinning,and ten times simulated body fluid(10SBF) were employed to mineralize nan...Composite nanofibrous mats consisting of poly( L-lactideco-ε-caprolactone)( PLCL) and collagen type I( COL) were fabricated by electrospinning,and ten times simulated body fluid(10SBF) were employed to mineralize nanofibrous mats. Ballshaped hydroxyapatite( HA) was deposited on the surface of nanofibrous mats in 1. 5 h at room temperature. Human fetal osteoblasts( hFob) were seeded to investigate their proliferation and differentiation on mineralized composite nanofibrous mats. The results showed that hFob grew well on mineralized composite nanofibrous mats and alkaline phosphatase( ALP) activity of hFob on mineralized composite nanofibrous mats at 14 d was much higher than that on untreated nanofibrous mats. Moreover,the expression of osteocalcin of cells on mineralized composite nanofibrous mats was also much higher than those on untreated nanofibrous mats at 7 d and 14 d. This mineralized composite nanofibrous mats may have a great potential for bone tissue engineering.展开更多
文摘Nanofiber has been widely used in numerous fields for its good advantages such as large surface area and porosity.However,the relationship between nanofiber structure and coaxial electrospinning process is still not clear and deserved to be studied.In this work,a kind of polyurethane/nickel(PU/Ni)nanofiber with core-shell structures was developed,and the effects of electrospinning parameters on the properties of nanofiber were evaluated.The results showed that the optimized parameters of core-shell electrospinning speeds were 1 mL/h(core)and 1 mL/h(shell),respectively.Sample c with the core-shell electrospinning speed ratio of 1∶1,exhibited the relatively smooth surface,good orientation,and bonding points.It also had the largest tensile strength at 99 cN,tensile elongation at 44.86%,and the best electricity conductivity,which showed great potential in the application of nanofiber fields.
基金"111 Project"Biomedical Textile Materials Science and Technology,China(No.B07024)National Natural Science Foundations of China(No.31070871,No.31271035)+2 种基金National Medical Research Council,China(No.NMRC/1151/2008)Technologies Bureau of Jiaxing City,China(No.MTC2012-006,No.2011A Y1026)Science and Technology Agency of Zhejiang Province,China(No.2012R10012-09)
文摘Composite nanofibrous mats consisting of poly( L-lactideco-ε-caprolactone)( PLCL) and collagen type I( COL) were fabricated by electrospinning,and ten times simulated body fluid(10SBF) were employed to mineralize nanofibrous mats. Ballshaped hydroxyapatite( HA) was deposited on the surface of nanofibrous mats in 1. 5 h at room temperature. Human fetal osteoblasts( hFob) were seeded to investigate their proliferation and differentiation on mineralized composite nanofibrous mats. The results showed that hFob grew well on mineralized composite nanofibrous mats and alkaline phosphatase( ALP) activity of hFob on mineralized composite nanofibrous mats at 14 d was much higher than that on untreated nanofibrous mats. Moreover,the expression of osteocalcin of cells on mineralized composite nanofibrous mats was also much higher than those on untreated nanofibrous mats at 7 d and 14 d. This mineralized composite nanofibrous mats may have a great potential for bone tissue engineering.