Publications
Journal Articles
2022
(1) W.-J. Huang, J. Wang*, “Development of 3D-Printed, Biodegradable, Conductive PGSA Composites for Nerve Tissue Regeneration.” Macromolecular Bioscience, 2022, e2200470.
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(2) S.-K. Hsiao, C.-W. Liang, T.-L. Chang, Y.-C. Sung, Y.-T. Chen, Y.-C. Chen, J. Wang*, “An in vitro fibrotic liver lobule model through sequential cell-seeding of HSCs and HepG2 on 3D-printed poly(glycerol sebacate) acrylate scaffolds.” Journal of Materials Chemistry B, 2022, 10, 9590-9598. [COVER]
(3) H.-T. Cheng, H.-C. Huang, T.-Y. Lee, Y.-H. Liao, Y.-H. Sheng, P.-R. Jin, K.-W. Huang, L.-H. Chen, Y.-T. Chen, Z.-Y. Liu, T.-C. Lin, H.-C. Wang, C.-H. Chao, I. P. Juang, C.-T. Su, K.-H. Huang, S.-L. Lin, J. Wang, Y.-C. Sung*, Y. Chen*, “Delivery of sorafenib by myofibroblast-targeted nanoparticles for the treatment of renal fibrosis.” Journal of Controlled Release, 2022, 346, 169-179.
(4) C.-C. Wang, J.-Y. Chen, J. Wang*, “The selection of photoinitiators for photopolymerization of biodegradable polymers and its application in digital light processing additive manufacturing,” Journal of Biomedical Materials Research Part A, 2022, 110 (1), 204-216.
2021
(1) W.-H. Wang, C.-W. Huang, E.-Y. Tsou, W.-S. Ao-Ieong, H.-C. Hsu, D. S.-H. Wong, J. Wang*, “Characterization of degradation behavior of poly(glycerol maleate) films in various aqueous environments.” Polymer Degradation and Stability, 2021, 183, 109441.
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(2) W.-C. Jiang, W.-Y. Hsu, W.-S. Ao-Ieong, C.-Y. Wang, J. Wang, S.-F. Yet*, “A novel engineered vascular construct of stem cell-laden 3D-printed PGSA scaffold enhances tissue revascularization.” Biofabrication, 2021, 13 (4), 045004.
(3) H.-C. Huang, Y.-C. Sung, C.-P. Li, D. Wan, P.-H. Chao, Y.-T. Tseng, B.-W. Liao, H.-T. Cheng, F.-F. Hsu, C.-C. Huang, Y.-T. Chen, Y.-H. Liao, H. T. Hsieh, Y.-C. Shih, I-J. Liu, H.-C. Wu, T.-T. Lu, J. Wang*, Y. Chen*, “Reversal of pancreatic desmoplasia by a tumour stroma-targeted nitric oxide nanogel overcomes TRAIL resistance in pancreatic tumours.” Gut, 2021, 71, 1843–1855.
(4) P.-Y. Chang, J. Wang, S.-Y. Li, S.-Y. Suen*, “Biodegradable Polymeric Membranes for Organic Solvent/Water Pervaporation Applications.” Membranes, 2021, 11 (12), 970.
(5) C.-T. Chang, Y.-T. Chen, Y.-K. Hsieh, S. P. Girsang, R.-S. Wang, Y.-C. Chang, S.-H. Shen, C. R. Shen, T.-P. Lin, D. Wan, J. Wang*, “Dual-functional antibiofilm polymer composite for biodegradable medical devices.” Material Science and Engineering: C, 2021, 123, 111985.
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(6) W.-S. Ao-Ieong, S.-T. Chien, W.-C. Jiang, S.-F. Yet, J. Wang*, “The Effect of Heat Treatment toward Glycerol-Based, Photocurable Polymeric Scaffold: Mechanical, Degradation and Biocompatibility.” Polymers, 2021, 13 (12), 1960.
2020
(1) C.-C. Wang, T.-Y. Shih, Y.-.T. Hsieh, J.-L. Huang, J. Wang*, “l-Arginine Grafted Poly(Glycerol Sebacate) Materials: An Antimicrobial Material for Wound Dressing.” Polymers, 2020, 12 (7), 1457.
(2) C.-L. Teng, J.-Y. Chen, T.-L. Chang, S.-K. Hsiao, Y.-K. Hsieh, K. V. Gorday, Y.-L. Cheng, J. Wang*, “Design of photocurable, biodegradable scaffolds for liver lobule regeneration via digital light process-additive manufacturing.” Biofabrication, 2020, 12 (3), 035024.
(3) Y.-K. Hsieh, P.-H. Hung, C.-W. Huang, K.-C. Chuang, J. Wang*, “Study on the degradation of biodegradable poly (glycerol maleate) (PGM) microbeads.” Polymer Degradation and Stability, 2020, 179, 109223.
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(4) M.-T. Chiang, H.-L. Wang, T.-Y. Han, Y.-K. Hsieh, J. Wang, D.-H. Tsai, “Assembly and Detachment of Hyaluronic Acid on a Protein-Conjugated Gold Nanoparticle.” Langmuir, 2020, 36 (48), 14782-14792.
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(5) C.-T. Chang, H.-T. Chen, S. P. Girsang, Y.-M. Chen, D.-H. Wan, S.-H. Shen, J. Wang*, “3D-printed radiopaque polymer composites for the in situ monitoring of biodegradable medical implants.” Applied Materials Today, 2020, 20, 100771.
2019
(1) Y.-C. Sung, P.-R. Jin, L.-A. Chu, F.-F. Hsu, M.-R. Wang, C.-C. Chang, S.-J. Chiou, J. T. Qiu, D.-Y. Gao, C.-C. Lin, Y.-S. Chen, J. Wang, F.-N. Wang, P.-L. Yu, A.-S. Chiang, A. Y.-T. Wu, J. J.-S Ko, C. P.-K. Lai, T.-T. Lu*, Y. Chen*, “Delivery of nitric oxide with a nanocarrier promotes tumour vessel normalization and potentiates anti-cancer therapies.” Nature Nanotechnology, 2019, 14 (12), 1160-1169.
(2) M.-H. Hsiao, H.-F. Ye, T.-J. Liu and J. Wang*, “Drug Loading on Microneedles,” Advances in Chemical Engineering and Science, 2019, 9(2), 204-222.
2018
(1) J.-Y. Chen, J. V. Hwang, W.-S. Ao-Ioeng, Y.-C. Lin, Y.-K. Hsieh, Y.-L. Cheng, J. Wang*, “Study of physical and degradation properties of 3D-printed biodegradable, photocurable copolymers, PGSA-co-PEGDA and PGSA-co-PCLDA,” Polymers, 2018, 10, 1263.
(2) Y.-K. Hsieh, C.-T. Chang, I.-H. Jen, F.-C. Pu, D. Wan and J. Wang*, “Using Gold Nanoparticles (AuNPs) as an Additive to Investigate the Drug Embedding and Releasing Performance in Poly(Glycerol Sebacate),” ACS Applied Nano Materials, 2018, 1(9), 4474-4482.
(3) Y.-K. Hsieh, K.V. Gorday, S.-K. Hsiao, K.-P. Hsu, T.-H. Wang, J. Wang*, “Laser-pattern induced contact guidance in biodegradable microfluidic channels for vasculature regeneration”, Journal of Materials Chemistry B, 2018, 6, 3684-3691.
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(4) L.-K. Lin, J. Wang, Y.-L. Liu*, “Effective Synthesis Route for Linear and Cross-Linked Biodegradable Polyesters Using Aliphatic Meldrum’s Acid Derivatives as Monomers,” ACS Omega, 2018, 3(4), 4641-4646.
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(5) Y.-C. Sung, Y.-C. Liu, P.-H. Chao, C.-C. Chang, P.-R. Jin, T.-T. Lin, J.-A. Lin, H.-T. Cheng, J. Wang, C. P. Lai, L.-H. Chen, A. Y. Wu, T.-L. Ho, T. Chiang, D.-Y. Gao, D. G. Duda, Y. Chen*, “Combined delivery of sorafenib and a MEK inhibitor using CXCR4-targeted nanoparticles reduces hepatic fibrosis and prevents tumor development,” Theranostics, 2018, 8(4), 894-905.
2017
(1) F.-S. Wang, T.-F. Wang, H.-H. Lu, W.-S. Ao-Ieong, J. Wang, H.-L. Chen, C.-H. Peng*, “Highly Stretchable Free-Standing Poly(acrylic acid)-block-poly(vinyl alcohol) Films Obtained from Cobalt-Mediated Radical Polymerization,“ Macromolecules, 2017, 50(16), 6054-6063.
(2) Y.-K. Hsieh, H.-C. Chen, W.-L., Huang, K.-P. Hsu, G. Kaiser, T.-H. Wang, J. Wang*, “Fabrication of Biodegradable Microfluidic Scaffolds Using Laser Ablation”, Polymers, 2017, 9(7):242.
(3) T.H. Wang, Y.-J. Yen, Y.C. Dong, Y.-K. Hsieh, J. Wang*, “Size effect of calcium-humic acid non-rigid complexes on the fouling behaviors on NF membrane: An LA-ICP-MS study”, Colloids Surf. A, 2017, 513: 335-347.
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(4) C.W. Yeh, L.-W. Wang, H.-C. Wu, Y.-K. Hsieh, J. Wang, M. H. Chen, T. W. Wang*, “Development of biomimetic micro-patterned device incorporated with neurotrophic gradient and supportive Schwann cells for the applications in neural tissue engineering,” Biofabrication, 2017, 9(1):015-024.
2016
(1) J.-Y. Cheng, M.-J. Feng, C.-C. Wu, J. Wang, T.-C. Chang, C.-M. Cheng*, “Development of a Sampling Collection Device with Diagnostic Procedures,” Analytical Chemistry, 2016, 88(15), 7591-7596.
(2) E.-S. Lee, J. Park, J. Wang, H. Lee, N. S. Hwang*, “Osteogenic commitment of human induced pluripotent stem cell-derived mesenchymal progenitor-like cells on biomimetic scaffolds,” Journal of Industrial and Engineering Chemistry, 2016, 37:147-155.
Patents
(1) J. Wang, Y.-L. Cheng, Y.-W. Chen, M.-Y. Shie, (2018-2037). ROC Invention Patent # I 644801, US 10,377,865 B2 “3D Printable biodegradable polymer composite.”
(2) Y.-L. Cheng, Y.-W. Chen, M.-Y. Shie, J. Wang, D.-H. Chen, C.-N. Hsu, (2018-2028). ROC Design Patent # M 565120, “Light Modules with Tunable Frequency for Photocuring Devices.”
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(3) J. Wang, K.-S. Chou, S.-N. Hsu, (2017-2035). ROC Invention Patent # I 568768, “Tissue Engineering Scaffold Material and Biodegradable Polyelastomer Thereof.”