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Related publications

IJ 11. A Microfluidic Chip Embracing a Nanofiber Scaffold for 3D Cell Culture and Real-Time Monitoring, Nanomaterials, Vol. 9 (4), 588, 2019.

IJ 10. A cell-laden hybrid fiber/hydrogel composite for ligament regeneration with improved cell delivery and infiltration, Biomedical Materials, Vol. 12 (5), September 2017, 055010.

IJ 9. Endothelial monolayers on collagen-coated nanofibrous membranes: cell-cell and cell-ECM interactions, Biofabrication, Vol. 8 (2), May 2016, 025008.

IJ 8.Three-dimensional culture and interaction of cancer cells and dendritic cells in an electrospun nano-submicron hybrid fibrous scaffold, International Journal of Nanomedicine, Vol. 11 (2), March 201, pp. 823-835.

IJ 7. Three-dimensional migration of neutrophils through an electrospun nanofibrous membrane, BioTechniques, Vol. 58 (6), June 2015, pp. 285–292.

IJ 6. Fabrication of a Nanofibrous Mat with a Human Skin Pattern, Langmuir, Vol. 31 (1), January 2015, pp. 424-431.

IJ 5. Fabrication of nanofibrous mats with uniform thickness and fiber density, Macromolecular Materials and Engineering, Vol. 299 (9), September 2014, pp. 1052-1061.

IJ 4. A cell-laden nanofiber/hydrogel composite structure with tough-soft mechanical property, Applied Physics Letters, Vol. 102, May 2013, 211914.

IJ 3. Fabrication of three-dimensional nanofibrous scaffold with lattice pores using a direct-write electrospinning, Materials Letters, Vol. 93, February 2013, pp 397-400.

IJ 2. Improving mechanical properties of alginate hydrogel by reinforcement with ethanol treated polycaprolactone nanofibers, Composites Part B, Vol. 45 (1), February 2013, pp 1216–1221.

IJ 1. Fabrication of patterned nanofibrous mats using a direct-write electrospinning, Langmuir, Vol. 28 (18), April 2012, pp 7267–7275.