1. Agrawal A., Lee B. H., Irvine S., An J., Bhuthalingam R., Singh V., Low K. Y., Chua C. K. & Venkatraman S. S., "Smooth muscle cell alignment and phenotype control by meltspun polycaprolactone (PCL) fibers for seeding of tissue engineered blood vessels", International Journal of Biomaterials, 2015, 434876, 2015.

2. An J., Teoh E. M. J., Suntornnond R., Chua C. K., "Design and 3D Printing of Scaffolds and Tissues", Engineering, 1(2), 261-268, 2015.

3. Bai J., Goodridge D. R., Yuan S., Zhou K., Chua C. K. & Jun W., “Thermal Influence of CNT on the Polyamide 12 Nanocomposite for Selective Laser Sintering”, Molecules, 20(10), 19041-19050, 2015.

4. Bai J., Yuan S., Chow W., Chua C. K., Zhou K. & Wei J., "Effect of surface orientation on the tribological properties of laser sintered polyamide 12", Polymer Testing, 48(1), 111-114, 2015.

5. Bhuthalingam R., Lim P. Q., Scott I. A., Agrawal A., Mhaisalkar S. P., An J., Chua C. K. & Venkatraman S., "A Novel 3D Printing Method for Cell Alignment and Differentiation", International Journal of Bioprinting, 1(1), 57-65, 2015.

6. Cai X., Malcolm A. A., Wong S. B. & Zheng F., "Measurement and characterization of porosity in aluminium selective laser melting parts using X-ray CT", Virtual and Physical Prototyping, 10(4), 195-206, 2015.

7. Ho C. M. B., Ng S. H., Ho. L. K. H. & Yoon Y. J., "3D printed microfluidics for biological applications", Lab on a chip, 15, 3627-3637, 2015.

8. Ho C. M. B., Ng S. H., Yoon Y. J., “A review on 3D printed bioimplants”, International Journal of Precision Engineering and Manufacturing, 16(5), 1035-1046, 2015.

9. Joshi C. S. & Sheikh A. A., "3D printing in aerospace and its long-term sustainability", Virtual and Physical Prototyping, 10(4), 175-185, 2015.

10. Khoo Z. X., Teoh E. M. J., Liu Y., Chua C. K., Yang S., An J. et al., "3D printing of smart materials: A review on recent progresses in 4D printing," Virtual and Physical Prototyping, 10(3), 103-122, 2015.

11. Kok Y., Tan X., Tor S. B. & Chua C. K., “Fabrication and microstructural characterisation of additive manufactured Ti-6AI-4V parts by electron beam melting”, Virtual and Physical Prototyping, 10(1), 13-21, 2015.

12. Loh L. E., Chua C. K., Yeong W. Y., Song J., Mapar M., Sing S. L., Liu Z. H. & Zhang D. Q., “Numerical investigation and an effective modelling on the Selective Laser Melting (SLM) process with aluminium alloy 6061", International Journal of Heat and Mass Transfer, 80, 288-300, 2015.

13. Li P., "Constitutive and failure behaviour in selective laser melted stainless steel for microlattice structures", Materials Science and Engineering A, 622, 144-200, 2015.

14. Li S., Wei Q., Shi Y., Chua C. K., Zhu Z. & Zhang D., “Microster-by-layer printing of laminated graphene-based interdigitatetured by Selective Laser Melting”, Journal of Materials Science & Technology, 31(9), 946-952, 2015.

15. Li S., Wei Q., Zhu Z. C. & Zhang D. Q., “Microstructure Characteristics of Inconel 625 Superalloy Manufactured by Selective Laser Melting”, Journal of Materials Science & Technology, 31(9),  946-952, 2015.

16. Ko H., Seung K. M. & Hwang J., “Design for additive manufacturing in customized products”, International Journal of Precision Engineering and Manufacturing, 16(11), 2369-2375, 2015.

17. Ko H., Seung K. M. & Otto N. K., “Design Knowledge Representation to Support Personalised Additive Manufacturing”, Virtual and Physical Prototyping, 4(10), 217-226, 2015.

18. Ng W. L., Yeong W. Y. & Naing W. M., "Cellular Approaches to Tissue-Engineering of Skin: A Review", Journal of Tissue Science and Engineering, 6(2), 1-9, 2015.

19. Park S. Y., Lee J. S., Choi B. H., Ahn I. H. & Seung K. M., “Modeling and observation of compressive behaviors of closed cellular structures using central Voronoi tessellation concepts”, International Journal of Precision Engineering and Manufacturing, 16(12), 2459–2465, 2015.

20. Sing S. L., Lam L. P., Zhang D. Q., Liu Z. H. & Chua C. K., "Interfacial characterization of SLM parts in multi-material processing: Intermetallic phase formation between AlSi10Mg and C18400 copper alloy", Materials Characterization, 107, 220-227, 2015.

21. Sun G., An J., Chua C. K., Pang H., Zhang J. & Chen P.,"Layer-by-layer printing of laminated graphene-based interdigitated microelectrodes for flexible planar micro-supercapacitors", Electrochemistry Communications, 51, 33-36, 2015.

22. Suntornnond R., An J., Yeong W. Y. & Chua C. K., "Biodegradable Polymeric Films and Membranes Processing and Forming for Tissue Engineering". Macromolecular Materials Engineering, 300(9), 858–877, 2015.

23. Tan X., Kok Y., Tan Y. J., Descoins M., Mangelinck D., Tor S. B., Leong K. F. & Chua C. K., "Graded microstructure and mechanical properties of additive manufactured Ti-6Al-4V via electron beam melting", Acta Materialia, 97, 1-16, 2015.

24. Tan X., Kok Y., Tan Y. J., Vastola G., Pei Q. X., Zhang G., Zhang Y. W., Tor S. B., Leong K. F. & Chua C. K., "An experimental and simulation study on build thickness dependent microstructure for electron beam melted Ti-6Al-4V", Journal of Alloys and Compounds, 646, 303-309, 2015.

25. Tan Y. J., Leong K. F., An J., Chian K. S., Tan X. & Yeong W. Y.,"Fabrication and in vitro analysis of tubular scaffolds by melt-drawing for esophageal tissue engineering", Materials Letters, 159, 424-427, 2015.

26. Tan Y. S. E. & Yeong W. Y., "Concentric bioprinting of alginate-based tubular constructs using multi-nozzle extrusion-based technique", International Journal of Bioprinting, 1(1), 49-56, 2015.

27. Wang S., Lee J. M. & Yeong W. Y., "Smart hydrogels for 3D bioprinting", International Journal of Bioprinting, 1(1), 3-14, 2015.

28. Wu W., Tor S. B., Chua C. K., Leong K. F. & Merchant A. A., "Investigation on processing of ASTM A131 Eh36 high tensile strength steel using selective laser melting", Virtual and Physical Prototyping, 10(4), 187-193, 2015.

29. Yap C. Y., Chua C. K., Dong Z. L., Liu Z. H., Zhang D. Q., Loh L. E. & Sing S. L., "Review of selective laser melting: Materials and applications", Applied Physics Reviews, 2(4), 041101, 2015.

30. Yap Y. L. & Yeong W. Y., "Shape recovery effect of 3D printed polymeric honeycomb", Virtual and Physical Prototyping, 10(2), 91-99, 2015.