Back Cover : In article number 2000180, George Z. Tan and Yingge Zhou present a novel core–sheath wet electrospinning approach to fabricate nanoporous polycaprolactone microtubes as potential functional capillaries for tissue engineering. The solution viscosity and humidity significantly influence the morphology of electrospun polymers, leading to various products including porous microbeads, helical microfibers, and microtubes. The nanoporous microtubes have similar size and morphology to human fenestrated capillary vessels.

中文翻译：

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纳米多孔聚己内酯微管的芯-鞘湿静电纺丝模拟有孔的毛细血管。

封底：在编号2000180中，George Z. Tan和Zhou Yingge提出了一种新颖的芯-鞘湿式静电纺丝方法，以制造纳米多孔聚己内酯微管作为组织工程的潜在功能性毛细管。溶液的粘度和湿度会显着影响电纺聚合物的形貌，从而导致产生各种产品，包括多孔微珠，螺旋微纤维和微管。纳米多孔微管的尺寸和形态与人类有孔的毛细管相似。