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Publications

Journal Publications

81. Moncal, K.K., Gudapati, H., Godzik, K.P., Heo, D. N., Kang, K., Rizk, R., Ravnic, D., Wee, H.B., Pepley, D.F., Ozbolat, O., Lewis, G., Moore, J.Z., Driskell, R., Ozbolat, I.T., 2020, “Intraoperative Bioprinting for Craniomaxillofacial Reconstruction” Nature Biotechnology (Submitted).

80. Heo, D.†, Alioglu, M. †, Wu, Y. †, Ozbolat, V. †, Ayan, B. †, Dey, M. †, Ozbolat, I.T., 2019 “3D Bioprinting of carbohydrazide-modified gelatin into microparticle-suspended oxidized alginate for fabrication of complex-shaped tissue constructs,” ACS Applied Materials and Interfaces (Under Revision).

79. Datta, P., Dey, M., Unutmaz, D., and Ozbolat, I.T, 2020, “Bioprinting for Reconstitution of the Cancer Microenvironment,” Nature Precision Oncology (Under Review).

78. Wu, Y. †, Ayan, B. †, Moncal, K. †., Kamal, F., Dhawan, A. and Ozbolat, I.T., 2019, “Hybrid Bioprinting of Zonally-stratified Human Articular Cartilage Using Scaffold-free Tissue Strands as Building Blocks, Advanced Functional Materials (Under Revision).

77. Khoduru, S., Lebenfinger, A., and Ozbolat, I.T., and Ravnic, D., 2019, “Functional and Molecular Characteristics of Human Adipose Stem Cell Derived Beta Cells,” Stem Cell Review and Reports (Submitted).

76. Wu, Y. †, Ayan, B. †, Vengadeshprabhu, F., Kamal, F., and Ozbolat, I.T., 2019, “Aspiration-assisted bioprinting of osteochondral interfaces,” Biofabrication (Submitted).

75. Ayan, B.†, Heo, D.†, Zhang, Z., Dey, M.†, Pavilianskas, A.†, Drapaca, C., and Ozbolat, I.T., “Aspiration-assisted Bioprinting for Precise Positioning of Biologics” Science Advances (In Press).

74. Yang, W., Kennedy, P., Bonazza, N., Yu, Y., Dhawan, A., Ozbolat, I.T., "Bioprinting of Articular Cartilage: A Systematic Review," Cartilage (In Press).

73. Wu, Y.†, Ravnic, D., and Ozbolat, I.T. 2019, “Opinion: Intraoperative Bioprinting: Translating Bioprinting Technologies into Clinics” Trends in Biotechnology (In Press).

72. Sun, W., Starly, B., Daly, A.C., Groll, J., Burdick, J., Skeldon, G., Shu, W., Sakai, Y., Jang, J., Cho, D.W., Nie, M., Takeuchi, S., Ostrodinov, S., Khademhosseini, A., Kamm, R., Moroni, L., Mironov, V., Ozbolat, I.T., 2020, “Bioprinting Roadmap” Biofabrication, 12, 022002.

71. Moncal, K.K. †, Tigli, S. †, Abu-laban, M., Heo, D. †, Rizk, E., Tucker, S., Lewis, G., Hayes, D., Ozbolat, I.T., 2019, “miR-148b enriched 3D printed hybrid scaffolds for critical-sized calvarial bone defect repair,” Materials Science and Engineering C, 105, 110128.

70. Dong, H.†, Hospodiuk, M.†, Ozbolat, I.T., 2019 “Synergistic interplay between human MSCs and HUVECs in 3D spheroids laden in collagen/fibrin hydrogels for bone tissue engineering,” Acta Biomaterilia, 95, 348-356.

69. Leberfinger, A., Dinda, S.†, Koduru, S., Ozbolat, V.†, Ravnic, D. and Ozbolat, I.T., 2019 “Bioprinting Functional Tissues” Acta Biomaterialia, 95, 32-49.

68. Wali, A., Dodda, A., Wu, Y.†, Ponnone A., Reddy, L.K., Ozdemir, S., Ozbolat, I.T., and Das, S., 2019 “Biological - Physically Unclonable functon(Bio-PUF),” Nature Communications Physics, 2 (1), 39.

67. Ozbolat, V. †, Dey, M. †, Ayan, B. †, and Ozbolat, I.T., "Extrusion-based Printing of Carbopol as a sacrificial ink for fabrication of microfluidic devices" Biofabrication, 11(3), 034101 7.

66. Moncal, K.K.†, Ozbolat, V. †, Heo, D.†, Datta, P., and Ozbolat, I.T., 2019, "Thermally-controlled Extrusion-based Bioprinting of Collagen" Journal of Materials Science: Materials in Medicine, 30(5), 55.

  65. Ulaga, S., Kalkandelenb, C., Oktarb, F.N., Uzun, M., Sahin, Y.M., Karademir, B., Arslan, S., Ozbolat, I.T., Mahirogulları, M., and Gunduza, O., 2019 “3D printing artificial blood vessel constructs using PCL/Chitosan/Collagen-based Hydrogel biocomposites” Chemistry Select, 4(8), 2387-2391.

64. Koduru, S., Leberfinger, A.N., Pasic, D., Forghani, A., Lince, S., Hayes, D.J., Ozbolat, I.T., Ravnic, D.R., 2019 “Cellular Based Strategies for Microvascular Engineering" Stem Cell Reviews and Reports, 15(2), 218-240.

63. Dhawan, A., Kenndy, P., Rizk, E., and Ozbolat, I.T., 2019, “3D Bioprinting for Bone and Cartilage Restoration in Orthopaedic Surgery” Journal of the American Academy of Orthopaedic Surgeons, 27(5), e215-e226.

62. Yang, W. †, Hospodiuk, M.†, Peng, W., Gudapati, H. †, Neuberger, T., Koduru, S., Ravnic, D., and Ozbolat, I.T., 2019, “Porous tissue strands: Avascular building blocks for scalable tissue fabrication " Biofabrication, 11(1), 015009.

61. Dodda, A., Wali, A., Wu, Y.†, Ponnone A., Reddy, L.K., Ozdemir, S., Ozbolat, I.T., and Das, S., 2019 “Biological One-Way Function for Secure Key Generation,” Advanced Theory and Simulations, 2(2), 1800154.

60. Satpathy, A., Datta, P., Wu, Y.†, Ayan, B.†, Bayram, E., Ozbolat, I.T., 2018 “Developments with 3D Bioprinting for Novel Drug Discovery” Expert Opinion on Drug Delivery, 13(12), 1115-1129.

59. Sasmal, P., Datta, P., Wu, Y.†, and Ozbolat, I.T., 2018, "3D Bioprinting for Modeling of Vasculature" MicroPyhsiological Systems, 2(9), 1-17.

58. Yang, W. †, Hospodiuk, M.†, Peng, W., Gudapati, H. †, Neuberger, T., Koduru, S., Ravnic, D., and Ozbolat, I.T., 2018, “Porous tissue strands: Avascular building blocks for scalable tissue fabrication " Biofabrication, 11(1), 015009.

57. Leberfinger, A., Hospodiuk, M.†, Pena-Francesch, A., Ayan, B.†, Ozbolat, V.*, Demirel, M., Ozbolat, I.T., and Ravnic, D. 2018, "Squid Ring Teeth Coated Mesh Improves Abdominal Wall Repair" Plastic and Reconstructive Surgery Global Open, 1-8, doi: 10.1097/GOX.0000000000001881.

56. Vural, M., Pena-Francesch, A., Pomes, J.B., Jung, H., Gudapati, H.†, Hatter, C.B., Allen, B., Anasori, B., Ozbolat, I.T., Gogotsi, Y., and Demirel, M., 2018 “Inkjet-printing of Self-Assembled 2D Titanium Carbide and Protein Electrodes with Stimuli Responsive Electromagnetic Shielding,” Advanced Functional Materials, 1801972.

55. Datta, P., Barui, A., Wu, Y.†, Ozbolat, V.†, Moncal, K.K.†, and Ozbolat, I.T., 2018 “Essential steps in bioprinting: from pre– to post-bioprinting,” Biotechnology Advances, 36(5), 1481-1504.

54. Moncal, K.†, Heo, D.N.†, Godzik, K., Sosnoski, D., Mrowczynski, O., Rizk, E., Tucker, S., Gerhard, E., Ozbolat, V., Dey, M.†, Lewis, G., Yang, J., Ozbolat, I.T., 2018, “3D Printing of Poly (ε-caprolactone)/ Poly (D, L-lactide-co-glycolide)/ Hydroxyapatite Composite Constructs for Bone Tissue Engineering” Journal of Materials Research, pp. 1-15.

53. Hospodiuk, M. †, Dey, M. †, Sosnoski, D., Ayan, B. †, Moncal, K. †, Wu, Y.†, and Ozbolat, I.T., 2018, "Sprouting Angiogenesis in Engineered Pancreatic Islets" Biofabrication, 10(3), 035003.

52. Ozbolat, V. *, Ayan, B. †, Dey, M. †, Povilianskas, A.†, Demirel, M., and Ozbolat, I.T., 2018, “3D Printing of PDMS Improves its Mechanical and Cell Adhesion Properties” ACS Biomaterials Science and Engineering, 4(2), pp. 682-693.

51. Leberfinger, A., Ravnic, D., Dhawan, A., and Ozbolat, I.T., (2017) "Bioprinting of Stem Cells for Transplantable Tissue Fabrication," Stem Cell Translational Medicine, 6(10), pp. 1940-1948.

50. Ravnic, D., Leberfinger, A. and Ozbolat, I.T., 2017, "Bioprinting for Type-I Diabetes," Trends in Biotechnology, 35(11), pp. 1025-1034.

49. Datta, P., Ozbolat, V., Ayan, B.†, Dhawan, A., Ozbolat, I.T., (2017) "Bone Tissue Bioprinting for Craniofacial Reconstruction" Biotechnology and Bioengineering, 114(11), pp. 2424-2431.

48. Datta, P., Dhawan, A., Yu., Y., Hayes, D., Gudapati, H.†, and Ozbolat, I.T., (2017) "Bioprinting of Osteochondral Tissues: Current Gaps and Future Perspectives," International Journal of Bioprinting, 3(2), pp. 109-120.

47. Peng, W.*, Datta, P., Ayan, B.†, Ozbolat, V.*, Sosnoski, D., and Ozbolat, I.T., (2017) “3D Bioprinting for Drug Discovery and Development in Pharmaceutics,” Acta Biomaterialia, 57, pp. 26-46.

46. Gerhard, E., Wang, W., Armstrong, A., Li, C., Guo, J., Xia, J., Qian, G., Ozbolat, I.T., Yang, J., (2017) “Design Strategies and Applications of Nacre – based Biomaterials,” Acta Biomaterialia, 54, pp. 21-34.

45. Ravnic, D., Leberfinger, A., Dey, M.†, Koduru, S., Hospodiuk, M.†, Datta, P., Moncal, K. K.†, Rizk, E. and Ozbolat, I.T., (2017) "Transplantation of Bioprinted Tissues and Organs: Technical and Clinical Challenges and Future Perspectives,” Annals of Surgery, 266(1), pp. 48-58.

44. Datta, P., Ayan, B.† and Ozbolat, I.T., (2017) "Bioprinting for Vascular and Vascularized Tissue Fabrication: Recent Achievements and Future Perspectives,” Acta Biomaterialia, 51, pp. 1-20.

43. Hospodiuk, M.†, Dey, M.†, Sosnoski, D., and Ozbolat, I.T., (2017) "The Bioink: Bioprintable Materials for Tissue and Organ Fabrication,” Biotechnology Advances, 35(2), pp. 217-239.

42. Ozbolat, I.T., Moncal, K. †, Gudupati, H.†, (2017) “Evaluation of Bioprinter Technologies,” Additive Manufacturing, 13, pp. 179-200.

41. Heller, M., Bauer, H.-K., Goetze, E., Gielisch, M., Ozbolat, I.T., Moncal, K.K. †, Rizk, E., Seitz, M., Gelinsky, M., Schroder, H.C., Wang, X., Muller, W., and Al-Nawas, B., (2016) "Materials and Scaffolds in the Medical 3D Printing and Bioprinting in the Context of Bone Regeneration" International Journal of Computerized Dentistry, 19(4), p. 301.

40. Ozbolat, I.T. and Gudapati, H.†, (2016) "A Review on Design for Bioprinting," Bioprinting, 3-4, 1-14.

39. Yu, Y.†, Moncal, K. †, Peng, W., Li, J., Rivero, I., Martin, J., and Ozbolat, I.T. (2016) "Three-dimensional bioprinting using self-assembling scalable scaffold-free "tissue strands" as a new bioink," Scientific Reports, 6, p. 28714.

38. Gudupati, H.†, Dey, M.†, Ozbolat, I.T. (2016) “A Comprehensive Review on Droplet-based Bioprinting: Past, Present and Future,” Biomaterials, 102, pp. 20-42.

37. Knowlton, S., Joshi, A., Yenilmez, B., Ozbolat, I.T., Khademhosseini, A. and Tasoglu, S. (2016) “Advancing Cancer Research Using Bioprinting for Tumor-on-a-Chip Platforms,” International Journal of Bioprinting, 2(2), pp. 3-8. 2 (2): 3-8

36. Do, A., Akkouch, A.†, Green, B., Ozbolat, I.T., Dababneh, A.†, Geary, S., Salem, A. (2016) “Controlled and Sequential Delivery of Fluorophores from 3D Printed Alginate-PLGA Tubes,” Annals of Biomedical Engineering, pp. 1-9.

35. Ozbolat, I.T., Peng, W., and Ozbolat, V. (2016) "Application Areas of 3D Bioprinting," Drugs Discovery Today, 21(8), 1257-1271.

34. Peng, W., Unutmaz, D., and Ozbolat, I.T. (2016) "Bioprinting Toward Physiologically-relevant Tissue Models for Pharmaceutics," Trends in Biotechnology, 34(9), 722-732.

33. Ozbolat, I.T. and Hospodiuk, M., (2016) "Current Advances and Future Directions in Extrusion-based Bioprinting," Biomaterials, 76, 321-343.

32. Akkouch, A., Yu, Y., and Ozbolat, I.T., (2015) "Microfabrication of Scaffold-free Tissue Strands for 3D Tissue Engineering," Biofabrication, 7(3), 031002.

31. Ozbolat, I.T., (2015) “Scaffold-based or Scaffold-free Bioprinting: Competing or Complementing Approaches,” ASME Journal of Nanotechnology in Engineering and Medicine, 6(2), 024701.

30. Ozbolat, I.T., (2015) “Editorial: 3D Bioprinting,” ASME Journal of Nanotechnology in Engineering and Medicine, 6(2), 020301.

29. Ozbolat, I.T., (2015) “Bioprinting Scale-up Tissue and Organ Constructs for Transplantation,” Trends in Biotechnology, 33(7): 395-400.

28. Zhang, Y. †, Yu, Y. †, Akkouch, A. †, Dababneh, A. †, Dolati, F. †, Ozbolat, I. T., (2015) In Vitro Study of Directly Bioprinted Perfusable Vasculature Conduits. Royal Society of Chemistry, J. of Biomaterials Science, 3(1), 134-143 (Featured in Biomaterials Science Blog).

27. Dababneh, A. †, Ozbolat, I.T., (2015) "Predictive Reliability and Lifetime Methodologies for Circuit Boards," Journal of Manufacturing Systems, 37(1), 141-148.

26. Shen, N., Ding, H., Bower, R., Yu, Y. †, Pence C., Ozbolat, I.T., and Standford, C., (2014) "Surface Micro-Patterning of Pure Titanium for Biomedical Applications via High Energy Pulse Laser Peeing," ASME Transaction on Micro and Nano-Manufacturing, 3(1), 011005.

25. Dababneh, A. †, Ozbolat, I. T. (2014) “Bioprinting Technology: A Current State-of-the-Art Review,” ASME Journal of Manufacturing Science and Engineering, 136(6), 061013.

24. Yu, Y. †, Zhang, Y. †, Ozbolat, I. T. (2014) A Hybrid Bioprinting Approach for Scale-up Tissue Fabrication. ASME Journal of Manufacturing Science and Engineering, 136(6), 061016.

23. Ozbolat, I. T., Khoda, AKMB. (2014) “Design of a New Parametric Path Plan for Hollow Porous Structures with Functionally Graded Materials,” ASME Journal of Computing and Information Science in Engineering, 14(4), 041005.

22. Dolati, F.†, Zhang, Y.†, Yu, Y.†, De Jasus, A., Sander, E., Ozbolat, I. T. (2014) “In Vitro Evaluation of Carbon-Nano Tube Reinforced Vascular Constructs,” Nanotechnology, 25(14), 145101.

21. Zhang, Y. †, Yu, Y. †, Dolati, F. †, Ozbolat, I. T. (2014) “Effect of Multi-wall Carbon Nanotube Reinforcement on Coaxially Extruded Cellular Vascular Conduits,” Material Science and Engineering C, 39, 126-133.

20. Samanta, K., Ozbolat, I. T., Koc, B. (2014) “Geometric Blending between two Geometric Features by Optimized Normal and Distance Matching for Heterogeneous Object Modeling,” Computers and Industrial Engineering, 69, 1-11.

19. Ozbolat, I. T., Chen, H. †, Yu, Y. † (2014) “Development of 'Multi-arm Bioprinter' for Hybrid Biofabrication of Tissue Engineering Constructs,” Robotics and Computer-Integrated Manufacturing, 30(3), 295-304.

18. Dababneh, A. †, Goerdt, B. †, Marler, T., and Ozbolat, I.T. (2014) “A Virtual Prognostic Tool for Nuclear Power Electronics Reliability,” Computer-Aided Design and Applications, 11(2), 228-238.

17. Khoda, A., Ozbolat, I. T., Koc, B. (2013) “Modeling of Variational Gradient Porous Architecture with Multi-directional Filament Deposition in 3D Scaffolds,” Computer Aided Design and Applications, 10(3), 445-459.

16. Ozbolat, I. T., Yu, Y.† (2013) "Bioprinting towards Organ Fabrication: Challenges and Future Trends,” IEEE Transactions on Biomedical Engineering, 60(3), 1-9.

15. Zhang, Y. †, Yu, Y. †, Chen, H. †, Ozbolat, I. T. (2013) “Characterization of Printable Cellular Micro-fluidic Channels for Tissue Engineering,” Biofabrication, 5(2), 024004.

14. Ozbolat, I. T., Marchany, M., Gardella, J., Koc, B. (2013) “Computer-aided 4D Modeling of Hydrolytic Degradation Kinetics in Micro-patterned Bioresorbable Membranes,” ASME Journal of Medical Devices, 7(2), 021004.

13. Khoda, A., Ozbolat, I. T., Koc, B. (2013) “Designing Heterogeneous Porous Tissue Scaffolds for Bio-additive Processes,” Computer Aided Design, 45(12), 1507-1523.

12. Zhang, Y.†, Yu, Y.†, Ozbolat, I. T. (2013) “Direct Bioprinting of Vessel-like Tubular Microfluidic Channels,” ASME Journal of Nanotechnology in Engineering and Medicine, 4(2), 021001.

11. Yu, Y. †, Zhang, Y. †, Martin, J., Ozbolat, I. T. (2013) “Evaluation of Cell Viability and Functionality in Vessel-like Bioprintable Cell Laden Tubular Channels,” ASME Journal of Biomechanical Engineering, 135(9), 091011.

10. Ozbolat, I. T., Koc, B. (2012) “3D Hybrid Wound Devices for Spatiotemporally Controlled Release Kinetics,” Computer Methods And Programs In Biomedicine, 108(3), 922-931.

9. Ozbolat, I. T., Debabneh, A. †, Egaali, O. †, Zhang, Y. †, Marler, T.F. (2012) “A Model Based Enterprise Approach in Electronics Manufacturing: Predictive Environment for Visualization of Electromechanical Virtual Validation,” Computer-Aided Design and Applications, 9(6), 847-856.

8. Ozbolat, I. T., Khoda, A., Marchany, M., Gardella, J., Koc, B. (2012) “Hybrid Tissue Scaffolds for Controlled Release Applications,” Virtual & Physical Prototyping, 7(1), 37-47.

7. Khoda, A., Ozbolat, I. T., Koc, B. (2011) "A new Functionally Gradient Controlled Porosity Architecture for Hollowed Scaffold Design,” Biofabrication, 3(3), 034106.

6. Ozbolat, I. T., Koc, B. (2011) “Multi-Directional Blending For Heterogeneous Objects,” Computer-Aided Design, 43(8), 863-875.

5. Ozbolat, I. T., Koc, B. (2011) “A Continuous Multi-material Toolpath Planning for Tissue Scaffolds with Hollowed Features,” Journal of Computer-Aided Design & Applications, 8(2), 237-247. 

4. Ozbolat, I. T., Koc, B. (2011) “Multi-function Based Modeling of 3D Heterogeneous Wound Scaffolds for Improved Wound Healing,” Journal of Computer-Aided Design & Applications, 8(1), 43-57.

3. Khoda, A. K. M. B., Ozbolat, I. T., Koc, B. (2011) “Engineered Tissue Scaffolds With Variational Porous Architecture,” ASME Journal of Biomechanical Engineering, 133(1), 011001.

2. Ozbolat, I. T., Koc, B. (2010) “Modeling Of Spatially Controlled Biomolecules in Three-Dimensional Porous Alginate Structures,” ASME Journal of Medical Devices, 4(4), 041003.

1. Ozbolat, I. T., Marchany, M., Bright, F.V., Cartwright, A.N., Gardella, J.A., Hard, R., Hicks, W.L., Koc, B. (2009) “Feature-based Design of Bio-degradable Micro-patterned Structures,” Journal of Computer-Aided Design & Applications, 6(5), 661-671.
Books
1. Ozbolat, I.T., 2017, “3D Bioprinting: Fundamentals, Principles and Applications,” Elsevier, ISBN: 9780128030103. 
Book Chapters

1. Datta, P., Wu, Y., Yu, Y., Moncal, K., and Ozbolat, I.T., 2018 “A scaffold-free 3D bioprinted cartilage model for in vitro toxicology” in Computer-Aided Tissue Engineering, Springer (Submitted).

2. Yang, W., Zhang, Y., Yu, Y., and Ozbolat, I.T., 2018 “3D Coaxial Bioprinting of Vasculature” in 3D Bioprinting Principles and Protocols, Springer Nature (Submitted).

3. Datta, P., Ayan, B., Datta, S., and Ozbolat, I.T., 2018 “3D Bioprinting Blood Vessels” in 3D Bioprinting for Connective Tissue Engineering: Techniques and Applications, Elsevier (Submitted).

4. Peng, W., Datta, P., Wu, Y., Dey, M., Ayan, B., Dababneh, A., and Ozbolat, I.T., 2018, "Challenges in Biofabrication of Organoid Cultures” in Advances in Experimental Medicine and Biology, Springer, New York, NY doi: 10.1007/5584_2018_216.

5. Hospodiuk, M., Moncal, K., Dey, M. and Ozbolat, I.T., 2018, "Extrusion-based Bioprinting in Tissue Engineering and Regenerative Medicine" in Tissue Engineering and Regeneration: 3D Printing and Biofabrication, Springer, ISBN 978-3-319-40498-1.

6. Leberfinger, A., Moncal, K.K, Ravnic, D., and Ozbolat, I.T., 2017 “3D Printing for Cell Therapy Applications” in Cell Therapy. Molecular and Translational Medicine. Humana Press, Cham.

7. Ozbolat, I.T., 2011, “Biomanufacturing" in Manufacturing Engineering & Technology, Pearson, ISBN 10: 1256487619.

Papers in Conference Proceedings
1. Yu, Y., Ozbolat, I.T. (2014). Tissue Strands As "Bioink" for Scale-Up Organ Printing. 36th Annual International Conference of the IEEE Engineering in Medicine and Biology Society.

2. Xu, J., Ozbolat, I.T., Marler, T. (2014) Reverse Engineering of Nuclear Electronics. The proceedings of the 9th International Topical Meeting on Nuclear Plant Instrumentation, Control, and Human Machine Interface Technologies.

3. Dolati, F., Zhang, Y., Yu, Y., Ozbolat, I.T. (2014). Effect of Multi-wall Carbon Nanotube Reinforcement on Coaxially Extruded Cellular Vascular Conduits. Proceedings of Annual Industrial and Systems Engineering Research Conference.

4. Dababneh, H., Ozbolat, I.T. (2014). A Virtual Reliability Tool for Circuit Boards. Proceedings of Annual Industrial and Systems Engineering Research Conference.

5. Zhang, Y., Dolati, F., Yu, Y., Ozbolat, I.T. (2014). Effect of Carbon Nanotube Reinforcement on Coaxially Extruded Vascular Conduits. 42nd North American Manufacturing Research Conference.

6. Shen, N., Pence, C., Bowers, R., Yu, Y., Ding, H., Standford, C., Ozbolat, I.T. (2014). Surface Micro-scale Patterning for Biomedical Implant Material of Pure Titanium via High Energy Pulse Laser Peening. Proceedings of 8th ASME Manufacturing Science and Engineering Conference.

7. Yu, Y., Ozbolat, I. T. (2013). Direct Bioprinting of Perfusable Vascularized Tissues. Proceedings of International Conference on Biofabrication.

8. Khoda, A., Ozbolat, I. T., Koc, B. (2013). Spatially Multi-functional Porous Tissue Scaffold. Procedia Engineering, 59, 174-182.

9. Goerdt, B., Dababneh, A., Marler, T., Ozbolat, I. T., Weintraub, B., Johnson, R. (2013). Integration of a Reliability Model within a Virtual Analysis System for Printed Circuit Boards. Proceedings of 2013 ASME International Mechanical Engineering Congress and Exposition.

10. Yu, Y., Ozbolat, I. T. (2013). Bioprinting-induced Cell Damage Analysis in Micro-fluidic Channel Biofabrication. Proceedings of 8th ASME Manufacturing Science and Engineering Conference.

11. Zhang, Y., Yu, Y., Ozbolat, I. T. (2013). Characterization of Printable Microfluidic Channels for Organ Printing. Proceedings of 8th ASME Manufacturing Science and Engineering Conference.

12. Chen, H., Ozbolat, I. T. (2013). Development of a Multi-Arm Bioprinter for Concurrent Multi-Material Deposition. Proceedings of 8th ASME Manufacturing Science and Engineering Conference.

13. Ozbolat, I. T. (2013). 3D Functional Organ Printing: Promises and Future Challenges. Proceedings of Annual Industrial and Systems Engineering Research Conference.

14. Chen, H., Ozbolat, I. T. (2013). A multi-material Bioprinting Platform towards Stratified Articular Cartilage Tissue Fabrication. Proceedings of Annual Industrial and Systems Engineering Research Conference.

15. Dababneh, A., Ozbolat, I. T. (2013). Board Level Reliability and Maintainability Modeling of Printed Circuit Boards. Proceedings of Annual Industrial and Systems Engineering Research Conference.

16. Zhang, Y., Yu, Y., Ozbolat, I. T. (2013). Characterization of Vessel-like Printable Cellular Microfluidic Channels. Proceedings of Annual Industrial and Systems Engineering Research Conference.

17. Yu, Y., Ozbolat, I. T. (2013). Experimental characterization of Printing-induced Cell Damage in Blood Vessel-like Cellular Channels towards 3D Organ Printing. Proceedings of Annual Industrial and Systems Engineering Research Conference.

18. Khoda, A., Ozbolat, I. T., Koc, B. (2013). Functionally Gradient Tissue Scaffold Design and Deposition Path Planning for Bio-additive Processes. Proceedings of Annual Industrial and Systems Engineering Research Conference.

19. Ozbolat, I. T., Khoda, A., Koc, B. (2012). Bio-Additive Manufacturing of Hybrid Tissue Scaffolds for Controlled Release Kinetics. Proceedings of 2012 ASME International Mechanical Engineering Congress & Exposition.

20. Zhang, Y., Chen, H., Ozbolat, I. T. (2012). Characterization of Printable Micro-fluidic Channels for Organ Printing. Proceedings of 2012 ASME International Mechanical Engineering Congress & Exposition.

21. Khoda, A., Ozbolat, I. T., Koc, B. (2012). Modeling of Porous Architecture with Anisotropic Pores. Proceedings of 2012 ASME International Mechanical Engineering Congress & Exposition.

22. Ozbolat, I. T., Koc, B., Deng, Y. (2012). Multi-directional Material Blending for Heterogeneous Object Modeling. Proceedings of 2012 ASME International Mechanical Engineering Congress & Exposition.

23. Zhang, Y., Chen, H., Ozbolat, I. T. (2012). Printable Micro-fluidic Channels towards Organ Printing. Proceedings of CAD Conferences, CAD 12.

24. Ozbolat, I. T., Elgaali, O., Zhang, Y., Debabneh, A., Marler, T.F., Turek S. (2012). A Model Based Manufacturing Environment for Assessing Virtual Performance of Printed Circuit Boards. Proceedings of Annual Industrial and Systems Engineering Research Conference, ISERC 2012.

25. Elgaali, O., Zhang, Y., Ozbolat, I. T. (2012). Multi-functional Hybrid Tissue Scaffolds. Proceedings of Annual Industrial and Systems Engineering Research Conference, ISERC 2012.
26. Ozbolat, I. T., Koc, B. (2011). Hybrid Wound Devices for Spatiotemporally Controlled Release Kinetics. ", Proceedings of 2011 ASME International Mechanical Engineering Congress & Exposition (IMECE).

27. Khoda, A., Ozbolat, I. T., Koc, B. (2011). Modeling and Fabrication of Hollowed Scaffolds with Interconnected Variational Porosity Architecture. Proceedings of 2011 ASME International Mechanical Engineering Congress & Exposition.

28. Ozbolat, I. T. (2011). Path Planning for Functionally Graded Materials in Hollowed Tissue Scaffold Printing. Proceedings of 2011 ASME International Mechanical Engineering Congress & Exposition (IMECE).

29. Khoda, A., Ozbolat, I. T., Koc, B. (2011). Bio-Mimetically Designed Functionally Gradient Pore Generation with Continuous Path Plan for Hollowed Tissue Scaffolds. Proceedings of 5th International Conference on Advanced Research in Virtual and Rapid Prototyping.

30. Ozbolat, I. T., Khoda, A., Koc, B. (2011). Multi-functional Tissue Scaffolds for Controlled Release Applications. Proceedings of 5th International Conference on Advanced Research in Virtual and Rapid Prototyping.

31. Koc, B., Ozbolat, I. T. (2011). Multi-material Blending for Complex-Shaped Heterogeneous Objects. Proceedings of 5th International Conference on Advanced Research in Virtual and Rapid Prototyping.

32. Ozbolat, I. T., Koc, B. (2011). 3D Engineered Wound Scaffolds for Spatiotemporally Controlled Release Kinetics. Proceedings of Industrial Engineering Research Conference, IERC 2011.

33. Ozbolat, I. T., Koc, B. (2011). A new Toolpath Planning in Solid Freeform Fabrication for Hollowed Objects. Proceedings of Industrial Engineering Research Conference, ISERC 2011.

34. Khoda, A., Koc, B., Ozbolat, I. T. (2011). Modeling Continuous Path Planning for Functionally Gradient Hollowed Tissue Scaffolds. Proceedings of Industrial Engineering Research Conference, ISERC 2011.

35. Ozbolat, I. T., Koc, B. (2011). Multi-directional Material Blending for Heterogeneous Object Modeling. Proceedings of Industrial Engineering Research Conference, ISERC 2011.

36. Ozbolat, I. T., Koc, B. (2010). Spatially Controlled Biomolecules in 3D Porous Structures. Proceedings of Industrial Engineering Research Conference, IERC 2010.

37. Ozbolat, I. T., Koc, B. (2010). Toolpath optimization in Solid Freeform Modeling and Fabrication for Tissue Engineering. Proceedings of Industrial Engineering Research Conference, IERC 2010.

38. Ozbolat, I. T., Koc, B. (2009). Computer-aided Bio-modeling of Micro-patterned Structures for Tissue Engineering. Proceedings of Industrial Engineering Research Conference, IERC 2009.

39. Ozbolat, I. T., Koc, B. (2009). Geometric Modeling of Complex Tissue Engineering Scaffolds with Controlled Porosity Distribution. Proceedings of Industrial Engineering Research Conference, IERC 2009.