22. Luo, Z., Lian, L., Stocco, T., Guo, J., Mei, X., Cai, L., Andrabi, S.M., Su, Y., Tang, G., Ravanbakhsh, H., ... & Zhang, Y. S., "3D Assembly of Cryo (Bio) Printed Modular Units for Shelf‐Ready Scalable Tissue Fabrication", Advanced Functional Materials, 2024.

21. Madadian, E.*, Ravanbakhsh, H.*, Touani Kameni, F., Rahimnejad, M., Lerouge, S., Ahmadi, A., "In-Foam Bioprinting: An Embedded Bioprinting Technique with Self-Removable Support Bath", Small Science, 2024.

20. Tang, G., Luo, Z., Lian, L., Guo, J., Maharjan, S., Garciamendez-Mijares, C.E., Wang. M., Li, W., Zhang, Z., Wang, D., Zie, M., Ravanbakhsh, H., Zhou, C., Kuang, X., Hou, Y., Yu, X., Zhang, Y.S., "Liquid-Embedded (Bio)printing of Alginate-Free, Standalone, Ultra-Fine, and Ultra-Thin-Walled Cannular Structures", Proceedings of the National Academy of Sciences (PNAS), 2023.

19. Ravanbakhsh, H., Behbahani, R., Yazdani Sarvestani, H., Kiyani, E., Rahmat, M., Karttunen, M., Ashrafi, B., "Combining Finite Element and Machine Learning Methods to Predict Structures of Architectured Interlocking Ceramics", Advanced Engineering Materials, 2023.

18. Karamzadeh, V., Shen, M., Ravanbakhsh, H., Kashani, A.S., Savoji, H., Radisic, M. and Juncker, D., "High-Resolution Additive Manufacturing of a Biodegradable Elastomer with A Low-Cost LCD 3D Printer", Advanced Healthcare Materials, 2023.

17. Kiyani, E., Sarvestani, H.Y., Ravanbakhsh, H., Behbahani, R., Ashrafi, B., Rahmat, M., Karttunen, M., "Designing Architectured Ceramics for Transient Thermal Applications using Finite Element and Deep Learning", Modelling and Simulation in Materials Science and Engineering, 2023.

16. Ravanbakhsh, H., Zhang, Y.S., "Cryobioprinting for Biomedical Applications", Journal of 3D printing in medicine, 2022.

15. Qu,  Q.,  Cheng, W., Zhang,  X., Ravanbakhsh, H.,  Tang,  G.,  Zhou,  A.,  Pei, D., Xiong,  R.,  Huang,  C., "Glucose‐Responsive Enzymatic Cascade Microreactors in Gas‐Shearing Microfluidics Microcapsules", Advanced Materials Technologies, 2022.

14. Mohammadi, S., Ravanbakhsh, H., Taheri, S., Bao, G., Mongeau, L., "Immunomodulatory micro-gels support proregenerative macrophage activation and attenuate fibroblast collagen synthesis", Advanced Healthcare Materials, 2022.

13. Qu, Q., Zhang, X., Ravanbakhsh, H., Tang, G., Zhang, J., Xiong, R., Huang, C., "Gas-shearing Synthesis of Core-shell Multicompartmental Microparticles as Cell-like System for Enzymatic Cascade Reaction", Chemical Engineering Journal, 2022.

12. Ravanbakhsh, H., Zhang, X., Luo, Z., Maharjan, S., Mirkarimi, H.S., Tang, G., Chávez-Madero, C., Mongeau, L., Zhang, Y.S., "Cryobioprinting for Shelf-ready Tissue Fabrication and Storage", Matter, 2021. [covered by Cell Press]

11. Luo, Z., Tang, G., Ravanbakhsh, H., Li, W., Wang, M., Kuang, X., Garciamendez-Mijares, C.E., Lian, L., Yi, S., Liao, J., Xie, M., Guo, J., Zhou, Z., Zhang, Y.S., "Vertical Extrusion Cryo (bio) printing for Anisotropic Tissue Manufacturing", Advanced Materials, 2021.

10. Taheri, S., Bao, G., He, Z., Mohammadi, S., Ravanbakhsh, H., Lessard, L., Li, J., Mongeau, L., "Injectable, Pore-Forming, Perfusable Double-Network Hydrogels Resilient to Extreme Biomechanical Stimulations", Advanced Science, 2021.

9. Ravanbakhsh, H., Karamzadeh, V., Bao, G., Mongeau, L., Juncker, D., Zhang, Y.S., "Emerging Technologies in Multi-material Bioprinting", Advanced Materials, 2021.

8. Tang, G., Chen, L., Lian, L., Li, F., Ravanbakhsh, H., Wang, M., Zhang, Y.S., Huang, C., "Designable Dual-Power Micromotors Fabricated from A Biocompatible Gas-Shearing Strategy at High-Throughput", Chemical Engineering Journal, 2021.

7. Ravanbakhsh, H.,  Bao,  G.,  Luo,  Z.,  Mongeau,  L.,  Zhang,  Y.S.,  "Composite Inks for Extrusion Printing of Biological and Biomedical Constructs", ACS Biomaterials Science & Engineering, 2020.

6. Qu, Q., Zhang, J., Chen, X., Ravanbakhsh, H., Tang, G., Xiong, R., Manshian, B., Seonen, S.J., Sauvage, F., Braeckmans, K., De Smedt, S.C., Huang, C., "Triggered Release from Cellulose Microparticles Inspired by Wood Degradation by Fungi", ACS Sustainable Chemistry & Engineering, 2020.

5. Bao, G., Jiang, T., Ravanbakhsh, H., Reyes, A., Ma, Z., Strong, M., Wang, H., Kinsella, J., Li, J., Mongeau, L., "Triggered Micropore-forming Bioprinting of Porous Viscoelastic Hydrogels", Materials Horizons, 2020.

4. Ravanbakhsh, H., Bao, G., Mongeau, L., "Carbon Nanotubes Promote Cell Migration in Hydrogels", Scientific Reports, 2020.

3. Zhang, X., Hou, C., Dun, B., Wei, R., Ravanbakhsh, H., Li, P., Wang, Z., Wu, Y., Song, X., Zhao, H., Li, Q., "Fatigue Behavior of Zr-based Metallic Glass Micropillars", Materials Science & Engineering: A, 2020.

2. Ravanbakhsh, H., Bao, G., Latifi, N., Mongeau, L., "Carbon Nanotube Composite Hydrogels for Vocal Fold Tissue Engineering: Biocompatibility, Injectability, and Porosity", Materials Science & Engineering: C, 2019.

1. Jamalimehr, A., Ravanbakhsh, H., Kadkhodaei, M., Kamrani, M., "Investigation of Dog-bone Geometry for Simple Tensile Test of Pseudoelastic Shape Memory Alloys", Iranian Journal of Science and Technology: Transactions of Mechanical Engineering, 2016.

17. Development of a foam-based support bath for embedded bioprinting of bioinks, International Conference on Biofabrication, Saskatoon, Canada, Sept. 2023.

16. Development of an In-foam Embedded Bioprinting Method for Low-Viscosity Slow-Crosslinking Hydrogels, The 38th Annual Conference of Canadian Biomaterials Society (CBS), Dalhousie, Canada, Jun 2023.

15. Octopus Suction Cup-mimicking Soft Manipulator For Rapid Transport And Fabrication Of Multi-layered Tissue, 32nd Annual Conference of the European Society for Biomaterials (ESB), Sept. 2022.

14. Microfluidic-based Fabrication of Hydrogel Microspheres with a Controllable Size Using an Oil-Free Approach, TERMIS 2021, Maastricht, Netherlands, November 2021. (Online)

13. Cell Migration in Carbon Nanotube-Glycol Chitosan Hydrogels for Vocal Fold Tissue Regeneration, TERMIS-AM 2019, Orlando, USA, December 2019.

12. Stress Relaxation in Carbon Nanotube Composite Hydrogels for Vocal Fold Tissue Regeneration, AQL 2019, Montreal, Canada, June 2019.

11. Bioprinting Highly Porous Chitosan-based Scaffolds with Tunable Stiffness and Viscoelasticity for Vocal Fold Repair, AQL 2019, Montreal, Canada, June 2019.

10. Swelling Behavior of Carbon Nanotube-based Composite Hydrogels Used as Injectable Biomaterial for Vocal Folds, TERMIS 2018, Kyoto, Japan, September 2018.

9. Fabrication of Vocal Fold Scaffolds with Tissue-like Collagen Alignment Using 3D Bioprinting, TERMIS 2018, Kyoto, Japan, September 2018.

8. The Rheological Properties of Carbon Nanotube-based Composite Hydrogels as an Injectable Biomaterial for Vocal Fold Tissue Engineering, WCB 2018, Dublin, Ireland, July 2018.

7. Evaluation of Chitosan-based Hydrogel as a Bioprinting Material for Vocal Fold Tissue Engineering, SFB 2018, Atlanta, USA, April 2018.

6. 3D Bioprinting of Chitosan and Chitosan-Collagen Hydrogel for Vocal Fold Tissue Engineering, BioEngineering 2018, Boston, USA, March 2018.

5. The Effect of Concentration of Carbon Nanotubes (CNTs) on the Viability of Human Vocal Fold Fibroblasts Encapsulated in Composite Chitosan Glycol-CNT Hydrogels", CBS 2017, Winnipeg, Canada, May 2017.

4. Theoretical and Finite Element Analysis of Upsetting Process Considering the Effect of Work Piece Geometry, ETEC 2015, Tehran, Iran, October 2015

3. Failure Mode Map for Foam Core Sandwich Panel with Composite Faces under Static Local Loading, ISME 2014, Ahwaz, Iran, April 2014.

2. Numerical Analysis of Indentation in Sandwich Beams Based on Higher-Order Theory; Differential Quadrature Method, ISME 2014, Ahwaz, Iran, April 2014.

1. Proposition of Dog-bone Geometry for Shape Memory Alloys under Simple Tensile Test, ISME 2013, Tehran, Iran, May 2013.