Poly(L-lactide)/polyacrylonitrile (PLLA/PAN) core-sheath composite fibers were fabricated by coaxial electrospinning. The crystallization behavior of PLLA within the coaxial electrospun fibers was studied by differential scanning calorimetry (DSC). The PLLA/PAN coaxial electrospun fiber with a PLLA diameter of similar to 32 nm (C1) exhibits a crystallization temperature (T-c) of 22.5 degrees C higher but a cold-crystallization temperature (T-cc) of 10 degrees C lower than bulk PLLA. The crystallinity of C1 fiber is also higher than bulk PLLA. In both isothermal melt-and cold-crystallization, PLLA in C1 fiber crystallizes faster than the bulk PLLA, as revealed by the smaller half crystallization times (t(1/2)). The enhanced crystallizability of PLLA in the C1 fiber may be attributed to the increased nuclei number and crystal growth rate induced by the PAN surface, i.e., surface-induction effect. However, PLLA also suffers a nano-confinement effect exerted by PAN sheath in the coaxial electrospun fiber, which can suppress PLLA crystallization. When the diameter of PLLA is too small (< 32 nm), the nano-confinement effect may prevail over the surface-induction effect, leading to a slower crystallization rate and smaller crystallinity.

• 单位
  浙江大学