1. Agarwala, S., Goh G.L., Truong S. D. L., An J.N., Peh Z.K., Yeong W.Y., and Kim Y.J., "Wearable bandage based strain sensor for home healthcare: combining 3D aerosol jet printing and laser sintering", ACS Sensors, 4(1), pp 218-226, 2019
  2. Bin Anwar, A., Ibrahim, I.H., & Pham, Q., "Spatter transport by inert gas flow in selective laser melting: A simulation study", Powder Technology, 352, pp 103-116, 2019. DOI: 10.1016/j.powtec.2019.04.044
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  4. Fu, H., Zhu, W., Xu, Z., Chen, P., Yan, C., Zhou, K., & Shi, Y., "Effect of silicon addition on the microstructure, mechanical and thermal properties of C-f/SiC composite prepared via selective laser sintering", Journal of Alloys and Compunds, 792, pp 1045-1053, 2019. DOI: 10.1016/j.jallcom.2019.04.129
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  6. Gautam R., and Sridhar, I., "Performance of strut-reinforced Kagome truss core structure under compression fabricated by selective laser melting", Materials and Design, 164, 107541, 2019
  7. Goh G.D., Yap Y.L., Agarwala S. and Yeong W.Y., "Recent progress in additive manufacturing of fiber reinforced polymer composite", Advanced Materials Technologies, 4(1), 1800271, 2019 
  8. Goh G.L., Agarwala S., Yeong W.Y., "Directed and on-demand alignment of carbon nanotube: A review towards 3D printing of electronics", Advanced Materials Interfaces, 6(4), 1801318, 2019
  9. Goh, G.D., Yap, Y.L., Tan, H.K.J., Sing, S.L., Goh G.L., and Yeong, W.Y., "Process–Structure–Properties in Polymer Additive Manufacturing via Material Extrusion: A Review", Critical Reviews in Solid State and Materials Sciences, 45(2), pp113-133, 2020. DOI: 10.1080/10408436.2018.1549977
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  11. Jiao L.S., Chua Z.Y., Moon S.K, Song J., Bi G.J.,and Zheng H.Y., Lee, B., Koo, J., "Laser-Induced Graphene on Additive Manufacturing Parts", Nanomaterials, 9(1), 90, 2019, DOI:10.3390/nano9010090
  12. Kathawala, M. H., Ng, W.L.,Liu, D., Naing, M.W., Yeong, W.Y, Spiller, K., Dyke, M.V., and Ng, K.W., "Healing of Chronic Wounds–An Update of Recent Developments and Future Possibilities." Tissue Engineering Part B, 25(5), pp 429-444, 2019. 
  13. Khoo, Z.X., An, J., Chua, C.K., Shen, Y.F., Kuo, C.N., and Liu, Y., "Effect of Heat Treatment on Repetitively Scanned SLM NiTi Shape Memory Alloy", Materials, 12(1), 77, 2019, DOI:10.3390/ma12010077
  14. Le, K.Q., Tang, C., and Wong, C.H., “On the study of keyhole-mode melting in selective laser melting process,” International Journal of Thermal Sciences, 145, 105992, 2019.
  15. Lee, A.Y., An, J., Chua, C.K., and Zhang, Y., "Preliminary Investigation of the Reversible 4D Printing of a Dual-Layer Component", Engineering, 5 (6) pp1159-1170, 2019, DOI:
  16. Lee, H., Low, M.J., Lim, C.H.J., An, J., Suchand C.S.S., Rohith, T.M., Rhee, H.G., Murukeshan, V.K., and Kim, Y.J., “Transferable ultra-thin multi-level micro-optics patterned by tunable photoreduction and photoablation for hybrid optics”, Carbon, 149, pp 572-581, 2019, DOI10.1016/j.carbon.2019.04.085
  17. Lee, J.M., Ng W.L., and Yeong W.Y., "Resolution and shape in bioprinting: Strategizing towards complex tissue and organ printing." Applied Physics Reviews, 6(1), 011307, 2019 
  18. Li, R., Yuan, S., Zhang, W., Zheng, H., Zhu, W., Li, B., Zhou, M., Law, A.W., and Zhou, K., "3D Printing of Mixed Matrix Films Based on Metal-Organic Frameworks and Thermoplastic Polyamide 12 by Selective Laser Sintering for Water Applications", ACS Applied Materials & Interfaces, 11(43), pp: 40564-40574, 2019, DOI: 10.1021/acsami.9b11840
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  20. Liu, Y.S., Sow, W.T., Tan, L.P., Wu, Y., Lai., Y.,& Li, H., "4D Printing and Stimuli-responsive Materials in Biomedical Applications", Acta Biomaterialia, 92, pp 19-36, 2019. DOI: 10.1016/j.actbio.2019.05.005
  21. Liu, Z., Li, M., Weng, Y., and Wong, T.N., "Mixture Design Approach to optimize the rheological properties of the material used in 3D cementitious material printing", Construction and Building Materials, 198, pp 245-255. 2019
  22. Lu Q.Y., Nguyen N.V., Hum A.J.W., Tran, T., and Wong, C.H., "Optical in-situ monitoring and correlation of density and mechanical properties of stainless steel parts produced by selective laser melting process based on varied energy density ", Journal of Materials Processing Tech, 271, pp 520-531, 2019.
  23. Lu, B., Qian, Y., Li, M., Weng, Y., Leong, K. F., Tan, M. J., and Qian, S. "Designing spray-based 3D printable cementitious materials with fly ash cenosphere and air entraining agent", Construction and Building Materials, 211, pp 1073-1084. 2019
  24. Lu, B., Weng, Y., Li, M., Qian, Y., Leong, K. F., Tan, M. J., and Qian, S., "A systematical review of 3D printable cementitious materials", Construction and Building Materials, 207, pp 477-490, 2019
  25. Luis, E., Pan, H.M., Sing, S.L., Bastola, A.K., Goh, G.D., Goh, G.L., Tan, H.K.J., Bajpai, R., Song, J., & Yeong, W.,Y., "Silicone 3D Printing: Process Optimization, Product Biocompatibility, and Reliability of Silicone Meniscus Implants", 3D Printing and Addtivie Manufacturing, 6(6), pp 319-332, 2019. DOI: 10.1089/3dp.2018.0226
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  27. Minh, T.P., Yeo, S.H., Teo, T.J., Wang, P., Nai, M.L.S., "Design and Optimization of a Three Degrees-of-Freedom Spatial Motion Compliant Parallel Mechanism With Fully Decoupled Motion Characteristics", Journal of Mechanisms and Robotics-Transactions of the ASME, 11(5), 051010, 2019, DOI: 10.1115/1.404392
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  29. Ng, W.L.,, and Yeong W.Y.,. "The Future of Skin Toxicology Testing – 3D Bioprinting Meets Microfluidics." International Journal of Bioprinting, 5(2.1), SI, pp 44-45, 2019.
  30. Pae, J.Y., Medwal, R., Vas, J.V., Matham, M.V.,and Rawat, R.S., “Remote plasma-assisted low-temperature large-area graphene synthesis”, Journal of Vacuum Science & Technology B, 37(4), 041201, 2019,
  31. Pae, J.Y., Sahoo, P.K.,and Matham, M.V., “Grating-coupled plasmonic sensor for sucrose sensing fabricated using optical fiber-based interference lithography (OFIL) system”, IEEE Sensors Journal, 19(22), pp10477-10481, 2019.
  32. Panda, B., Lim, J.H., and Tan, M.J., "Mechanical properties and deformation behaviour of early age concrete in the context of digital construction". Composites Part B - Engineering 165, pp 563-571, 2019. DOI: 10.1016/j.compositesb.2019.02.040
  33. Panda, B., Mohamed, N.A.N., Paul, S.C., Somgh, G.V.P.B., Tan, M.J., and Savija, B., "The effect of material fresh properties and process parameters on buildability and interlayer adhesion of 3D printed concrete". Materials 12(13), 2149. 2019. DOI: 10.3390/ma12132149
  34. Panda, B., Ruan, S.Q., Unluer, C., and Tan, M.J., "Improving the 3D printability of high volume fly ash mixtures via the use of nano attapulgite clay", Composites Part B - Engineering, 165, pp 75-83, 2019. DOI: 10.1016/j.compositesb.2018.11.109
  35. Panda, B., Singh, G.V.P.B, Unluer, C., and Tan, M.J., "Synthesis and characterization of one-part geopolymers for extrusion based 3D concrete printing", Journal of Cleaner Production 220, pp 610-619, 2019. DOI: 10.1016/j.jclepro.2019.02.185
  36. Panda, B., Unluer, C. and Tan, M.J., "Extrusion and rheology characterization of geopolymer nanocomposites used in 3D printing". Composites Part B - Engineering, 176, 107290. 2019.DOI: 10.1016/j.compositesb.2019.107290
  37. Phuc, L.T. and Seita, M.,"A high-resolution and large field-of-view scanner for in-line characterization of powder bed defects during additive manufacturing", Materials and Design, 164, UNSP 107562, 2019, DOI:10.1016/j.matdes.2018.107562
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  39. Sahoo, P.K., Pae, J.Y., and Murukeshan, V.M., “Enhanced absorption in a graphene embedded 1D guided-mode-resonance structure without back-reflector and interferometrically written gratings”, Optics Letters, 44(15), pp3661-3664, 2019,
  40. Sriphutkait, Y., and Zhou, Y., " Acoustic manipulation of microparticle in a cylindrical tube for 3D printing", Rapid Prototyping Journal, 25(5), pp 925-938, 2019, DOI: 10.1108/RPJ-10-2017-0191 
  41. Sun, Z., Tan, X. P., Descoins, M., Mangelinck, D., Tor, S. B., and Lim, C. S., "Revealing hot tearing mechanism for an additively manufactured high-entropy alloy via selective laser melting", Scripta Materialia, 168, pp: 129-133, 2019, DOI: 10.1016/j.scriptamat.2019.04.036
  42. Tan X.P., Chandra S., Kok Y., Tor S.B., Seet G., Loh N.H.,and Liu E.J, "Revealing competitive columnar grain growth behavior and periodic microstructural banding in additively manufactured Ti-6Al-4 V parts by selective electron beam melting", Materialia, 7, 100365, 2019. DOI:
  43. Tan, H.W., An,J., Chua, C.K., & Tran, T., "Metallic Nanoparticle Inks for 3D Printing of Electronics", Advanced Electronics Materials, 5(5), 1800831, 2019. DOI:10.1002/aelm.201800831
  44. Tan, P., Shen, F., Li, B., and Zhou, K., "A thermo-metallurgical-mechanical model for selective laser melting of Ti6Al4V", Materials and Design, 168, 107642, 2019, DOI:10.1016/j.matdes.2019.107642
  45. Tay Y.W.D., Ting, G.H.A., Qian, Y., Biranchi, P., He, L., and Tan M.J.,"Time gap effect on bond strength of 3D-printed concrete", Virtual and Physical Prototyping, 14(1), pp 104-113, 2019, DOI: 10.1080/17452759.2018.1500420
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  47. Tay, Y.W.D., Qian, Y., and Tan, M.J., “Printability region for 3D concrete printing using slump and slump flow test”, Composites Part B - Engineering, 174, UNSP 106968, 2019, DOI: 10.1016/j.compositesb.2019.106968.
  48. Ting G.H.A, Tay, Y.W.D., Qian, Y., and Tan, M.J., "Utilization of recycled glass for 3D concrete printing: rheological and mechanical properties", Journal of Material Cycles and Waste Management, 2019,
  49. Voon, S.L., An, J.,Wong, G.,Zhang, Y., and Chua, C.K., “3D food printing: a categorised review of inks and their development”, Virtual and Physical Prototyping, 14(3), pp 203-218, 2019,
  50. Wang, C., Tan, X.P., Du, Z., Chandra, S., Sun, Z., Lim, C.W.J., Tor, S.B., Lim, C.S., and Wong, C.H., "Additive manufacturing of NiTi shape memory alloys using pre-mixed powders", Journal of Materials Processing Tech. 271, pp 152-161, 2019
  51. Wang, J.J., Wu,W.J., Jing, W., Tan, X.P., Bi, G.J., Tor S.B., Leong, K.F., Chua, C.K., and Liu, E.J., "Improvement of densification and microstructure of ASTM A131 EH36 steel samples additively manufactured via selective laser melting with varying laser scanning speed and hatch spacing", Materials Science & Engineering A, 746, 300-313, 2019
  52. Weng, Y., Li, M., Liu, Z., Lao, W., Lu, B., Zhang, D., and Tan, M. J., "Printability and fire performance of a developed 3D printable fibre reinforced cementitious composites under elevated temperatures". Virtual and Physical Prototyping, 14(3), pp 1-9. 2019.
  53. Weng, Y., Ruan, S., Li, M., Mo, L., Unluer, C., Tan, M.J., and Qian, S., "Feasibility study on sustainable magnesium potassium phosphate cement paste for 3D printing" Construction and Building Materials, 221, pp595-603, 2019,
  54. Wong K.K., & Leong, K.C., " Nucleate flow boiling enhancement on engineered three-dimensional porous metallic structures in FC-72", Applied Thermal Engineering, 159, UNSP 113846, 2019. DOI:  10.1016/j.applthermaleng.2019.113846
  55. Xiang, D. D., Wang, P., Tan, X. P., Chandra, S., Wang, C., Nai, M. L. S., Tor, S. B., Liu, W. Q., & Liu, E., "Anisotropic microstructure and mechanical properties of additively manufactured Co-Cr-Mo alloy using selective electron beam melting for orthopedic implants", Materials Science and Engineering A - Structural Materials Properties Microstructure and Processing, 765, 138270, 2019. DOI: 10.1016/j.msea.2019.138270
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  59. Yuan, S., Chua, C.K., and Zhou, K., "3D-Printed Mechanical Metamaterials with High Energy Absorption", Advanced Materials Technologies, 4(3), 1800419, 2019, DOI: 10.1002/admt.201800419
  60. Yuan, S., Shen, F., Chua, C.K., and Zhou, K., "Polymeric composites for powder-based additive manufacturing: Materials and applications" Progress in Polymer Science, 91, pp141-168, 2019, DOI:10.1016/j.progpolymsci.2018.11.001
  61. Zhang, B., Bi, G., Chew, Y., Wang, P., Ma, G., Liu, Y., Moon, S.K., "Comparison of carbon-based reinforcement on laser aided additive manufacturing Inconel 625 composites" Applied Surface Science, 490, pp522-534, 2019, DOI: 10.1016/j.apsusc.2019.06.008
  62. Zhang, M., Sun, C., Zhang, X., Goh, P.C., Wei, J., Hardacre, D., & Li, H., "High cycle fatigue life prediction of laser additive manufactured stainless steel: A machine learning approach", International Journal of Fatigue, 128, 105194, 2019. DOI: 10.1016/j.ijfatigue.2019.105194
  63. Zhang, M., Sun, C., Zhang, X., Wei, J., Hardacre, D., & Li, H., "High cycle fatigue and ratcheting interaction of laser powder bed fusion stainless steel 316L: Fracture behaviour and stress-based modelling" International Journal of Fatigue, 121, pp 252-264, 2019. DOI:10.1016/j.ijfatigue.2018.12.016
  64. Zhang, X.,and Pham, Q.C., "Planning coordinated motions for tethered planar mobile robots", Robotics and Autonomous Systems",118,  pp 189-203. 2019
  65. Zhang, Y., "Three-dimensional-printing for microfluidics or the other way around?", International Journal of Bioprinting, 5(2), pp: 61-73, 2019, DOI: 10.18063/ijb.v5i2.192
  66. Zhao, D., Han, C., Li. Y, Li, J., Zhou, K., Wei, Q., Liu, J., and Shi, Y., “Improvement on mechanical properties and corrosion resistance of titanium-tantalum alloys in-situ fabricated via selective laser melting”, Journal of Alloys and Compounds, 804, pp 288-298, 2019,
  67. Zhou, M., Lee, B.H., Tan, Y.J., Tan, & L.P., "Microbial transglutaminase induced controlled crosslinking of gelatin methacryloyl to tailor rheological properties for 3D printing", Biofabrication, 11(2), 025011, 2019. DOI: 10.1088/1758-5090/ab063f
  68. Zhuang, P., Ng, W.L., An, J., Chua, C.K., and Tan, L.P., "Layer-by-layer ultraviolet assisted extrusion-based (UAE) bioprinting of hydrogel constructs with high aspect ratio for soft tissue engineering applications.", PloS one 14(6), 2019, e0216776.