Paper

• Extracelullar matrix-inspired BMP-2 delivering biodegradable fibrous particle for bone tissue engineering.

• Systemically replicated organic and inorganic bony microenvironment for new bone formation generated by a 3D printing technology.

• Effect of dual growth factor delivery using poly(lactic-co-glycolic acid) mesh on neovascularization in a mouse skin flap model.

• In vitro and in vivo dentinogenic efficacy of human dental pulp-derived cells induced by demineralized dentin matrix and HA-TCP.

• Controlled retention of BMP-2 derived peptide on nanofibers based on mussel-inspired adhesion for bone formation.

• Dual delivery of growth factors with coacervate-coated poly(lactic-co-glycolic acid) nanofiber improves neovascularization in a mouse skin flap model.

• Plant flavonoid-Mediated Multifunctional Surface Modification Chemistry: Catechin Coating for Enhanced Osteogenesis of Human Stem Cells.

• Synergetic effect of 3,4-dihydroxy-L-phenylalanine-modified poly(lactic-co-glycolic acid) nanopatterned patch with fibroblast growth factor-2 for skin wound regeneration.

• In Situ Bone Tissue Engineering With an Endogenous Stem Cell Mobilizer and Osteoinductive Nanofibrous Polymeric Scaffolds.

• Sphingosine-1-Phosphate Immobilized on Nanotopographical Scaffolds Improve Myogenic Differentiation.

• Progress in topographically defined scaffolds for drug delivery system.

• Topographically Defined Biodegradable Nanopatterned Patches to Regulate Cell Fate and Acceleration of Bone Regeneration.

• Biodegradable Nerve Guidance Conduit with Microporous and Micropatterned Poly(lactic‐co‐glycolic acid)‐Accelerated Sciatic Nerve Regeneration.

• Differentiated osteoblasts derived decellularized extracellular matrix to promote osteogenic differentiation.

• Oxidative coating of epigallocatechin gallate on polymeric substrates as a multi-functional interface for regulating multiple bone healing process.

• Coacervate-mediated Exogenous Growth Factor Delivery for Scarless Skin Regeneration.

• Accelerated bone regeneration via three-dimensional cell-printed constructs containing human nasal turbinate-derived stem cells as a clinically applicable therapy.

• Nature-inspired Rollable Electronics.

• Biofabrication and application of decellularized bone extracellular matrix for effective bone regeneration.

• Electrically conductive hydrogel nerve guidance conduits for peripheral nerve regeneration.

• Micro-grooved nerve guidance conduits combined with microfiber for rat sciatic nerve regeneration.

• Osteoconductive hybrid hyaluronic acid hydrogel patch for effective bone formation.

• In situ pocket-type microcarrier (PMc) as a therapeutic composite: Regeneration of cartilage with stem cells, genes, and drugs.

• Antioxidant and anti-inflammatory activities of Prussian blue nanozyme promotes full-thickness skin wound healing.

• Enhanced Extraction of Skin Interstitial Fluid Using a Tilted Microneedle Device Fabricated by 3D Printing.

• Nanozyme Impregnated Mesenchymal Stem Cells for Hepatic Ischemia Reperfusion Injury Alleviation.

• Mechanically-reinforced and highly adhesive decellularized tissue-dirived hydrogel for efficient tissue repair.

• Micro-grooved patterned PCL patches with DOPA for rat Achilles tendon regeneration.

• Rationally designed bioactive milk-derived protein scaffolds enhanced new bone formation.

• Fibrinogen-based cell and spheroid sheets manipulating and delivery for muscle hindlimb ischemia.

​

Journal

• Journal of Materials Chemistry B, 3, 8375-8382 (2015) (IF: 7.571)

• RSC Advances, 6, 11546-11553 (2016) (IF: 4.036)

• Macromolecular Research, 24, 385-391 (2016) (IF: 2.127)

• Stem Cells International, 6, 1-15 (2017) (IF: 5.131)

• Tissue Engineering Part A, 23, 323-334 (2017) (IF: 4.080)

• Biomaterials, 124, 65-77 (2017) (IF: 15.304)

• Chemistry of Materials, 29, 4375-4384 (217) (IF: 10.508)

• Journal of Biomedical Materials Research Part B Applied Biomaterials, 3, 594-604 (2017) (IF: 3.405)

• Biotechnology Journal, 12, 1700268 (2017) (IF: 5.726)

• Biotechnology Journal, 12, 1700268 (2017) (IF: 5.726)

• Journal of Pharmaceutical Investigation, 48, 167-174 (2017) (IF : 0.623)

• ACS Applied Materials & Interfaces, 10, 38780-38790 (2018) (IF: 10.383)

• Macromolecular Bioscience, 18, 1800290 (2018) (IF: 5.859)

• Biomaterials Research, 22, Article number:4 (2018) (IF: 15.863)

• Macromolecular Bioscience, 2019, 19, 1800392 (2019) (IF: 5.859)

• Acta Biomaterialia, 90, 179-191 (2019) (IF: 10.633)

• ACS Biomaterials Science and Engineering, 5, 6171-6185 (2019) (IF: 5.395)

• NPG Asia materials, 11, 67 (2019) (IF: 10.761)

• Journal of Industrial and Engineering Chemistry, 83, 323-332 (2020) (IF: 6.760)

• Advanced Functional Materials, 30, 2003759 (2020) (IF: 19.924)

• Journal of Industrial and Engineering Chemistry, 90, 214-223 (2020) (IF: 6.760)

• Journal of Controlled Release, 332, 337-345 (2021) (IF: 11.467)

• Materials Science and Engineering C, 119;111596 (2021) (IF: 7.328)

• Scientific Reports, 11;14018 (2021) (IF: 4.996)

• ACS Applied Materials & Interfaces, 9;13(22):25649-25662 (2021) (IF: 10.383)

• Chemical Engineering Journal, 427, 1, 130926 (2021) (IF: 16.744)

• Journal of Industrial and Engineering Chemistry, 105, 25, 352-364 (2022) (IF: 6.760)

• Bioactive Materials (2023) (IF: 16.874)

• Biofabrication (2023) (IF: 11.061)