Articles

55. Vimentin promotes collective cell migration through collagen networks via increased matrix remodeling and spheroid fluidity. 55

54. Multipath projection stereolithography (MPS) for 3D printing microfluidic devices 54

53. CELLNET technology: Spatially organized, functional 3D networks at single cell resolution 53

52. Droplet bioprinting of acellular and cell-laden structures at high-resolutions 52

51. Meniscus-enabled Projection Stereolithography (MAPS) BioRxiv (Pre-print) 51

50. Printing Double-Network Tough Hydrogels Using Temperature Controlled Projection Stereolithography (TOPS). ACS Applied Materials and Interfaces. 50

49. Large biaxial recovered strains in self-shrinking 3D shape-memory polymer parts programmed via printing with application to improve cell seeding. Advanced Materials Technologies 49

48. In vitro model to study confined osteocyte networks exposed to flow-induced mechanical stimuli. Biomedical Materials. 48

47. Femtosecond Laser Densification of Hydrogels to Generate Customized Volume Diffractive Gratings, ACS Applied Materials & Interfaces. 47

46. UNITED STATES PATENT was awarded to 3 inventors from our lab on March 1 2022 Hybrid Additive-Subtractive Laser Fabrication Platform for Shaping Hydrogels Patent No: US 11,260,596 B2

45. Smart biomaterial platforms: Controlling and being controlled by cells, BIOMATERIALS, Vol. 283, April 2022, 121450 45

44. Printing Parameters of Fused Filament Fabrication Affect Key Properties of Four-Dimensional Printed Shape-Memory Polymers. 3D PRINTING AND ADDITIVE MANUFACTURINGPDF

43. Three-Dimensional Printing of Double-Network Hydrogels: Recent Progress, Challenges, and Future Outlook. 3D PRINTING AND ADDITIVE MANUFACTURINGPDF

42. Hydrogel‐Based Diffractive Optical Elements (hDOEs) Using Rapid Digital Photopatterning ADVANCED OPTICAL MATERIALS PDF

41. Direct Laser Writing of Fluorescent Silver Nanoclusters: A Review of Methods and Applications.” 3, no. 8 (2020): 7325-7342. ACS APPLIED NANO-MATERIALSPDF

40. High-Resolution 3D Printing of Stretchable Hydrogel Structures Using Optical Projection Lithography ACS APPLIED MATERIALS AND INTERFACESPDF

39. Oxygen-Permeable Films for Continuous Additive, Subtractive, and Hybrid Additive/Subtractive Manufacturing 3D PRINTING AND ADDITIVE MANUFACTURINGPDF

38. Perfusion-based co-culture model system for bone tissue engineering AIMS BIOENGINEERINGPDF

37. Serum-Free Manufacturing of Mesenchymal Stem Cell Tissue Rings Using Human-Induced Pluripotent Stem Cells Tissue Engineering STEM CELL INTERNATIONAL PDF

36. Femtosecond laser induced densification within cell-laden hydrogels results in cellular alignment BIOFABRICATIONPDF

35. Hybrid Laser Printing of 3D, Multiscale, Multimaterial Hydrogel Structures ADVANCED OPTICAL MATERIALSPDF

34. A bioink blend for rotary 3D bioprinting tissue engineered small-diameter vascular constructs ACTA BIOMATERIALIAPDF

33. Measuring Changes in Electrical Impedance During Cell-Mediated Mineralization BIOELECTRICITYPDF

32. Generation of cell-laden hydrogel microspheres using 3D printing enabled microfluidics JOURNAL OF MATERIALS RESEARCHPDF

31. Perfusion directed 3D mineral formation within cell-laden hydrogels BIOFABRICATIONPDF

30. Gelatin methacrylate-alginate hydrogel with tunable viscoelastic properties AIMS Materials SciencePDF

29. Conductive gelatin methacrylate-poly(aniline) hydrogel for cell encapsulation Biomedical Physics & Engineering ExpressPDF

28. Fabrication of conductive gelatin methacrylate–polyaniline hydrogels Acta BiomaterialiaPDF

27. Design and 3D Printing of Hydrogel Scaffolds with Fractal Geometries ACS Biomaterial Science & EngineeringPDF

26. A Tubular Biomaterial Construct Exhibiting a Negative Poisson’s Ratio PLOSPDF

25. Behavior of Encapsulated Saos-2 Cells within Gelatin Methacrylate Hydrogels Journal of Tissue Science & EngineeringPDF

24. An in vitro vascular chip using 3D printing-enabled hydrogel casting BiofabricationPDF

23. Developing 3D Scaffolds in the Field of Tissue Engineering to Treat Complex Bone Defects 3D Printing and Additive ManufacturingPDF

20. Factors Affecting Dimensional Accuracy of 3D-Printed Anatomical Structures Derived From CT Data Journal of Digital ImagingPDF

21. Fabrication of conductive polyaniline hydrogel using porogen leaching and projection microstereolithography Journal of Materials Chemistry BPDF

22. A novel suspended hydrogel membrane (ShyM) platform for cell culture ASME – Journal of Nanotechnology in Engineering and MedicinePDF

19. Light-based Direct-write of 3D Functional Biomaterials Lab on a Chip, Vol. 14 (2), pp. 268 – 275

15. Tuning the Poisson’s ratio of biomaterials for investigating cellular responses Advanced Functional Materials

16. Digital-micromirror-device projection printing system for meniscus tissue engineering Acta Biomaterialia

17. Microfabrication of user-defined 3D microstructures in cell-laden hydrogels Biotechnology and Bioengineering, Online

18. Structural Reinforcement of Cell-Laden Hydrogels with Microfabricated Three Dimensional Scaffolds Biomaterials Science

9. Spatial Tuning of Negative and Positive Poisson’s Ratio in a Multi-layer Scaffold Acta Biomaterialia, Vol. 8, pp. 2587-2594

10. Three-dimensional Polymer Constructs Exhibiting a Zero Poisson’s Ratio Soft Matter, Vol. 8 (no. 18), pp. 4946-4951

11. Microfabrication of complex porous tissue engineering scaffolds using 3D projection stereolithography” Biomaterials, Vol. 33 (no.15), pp. 3824-3834

12. Three-dimensional scaffolding to investigate neuronal derivatives of human embryonic stem cells Biomedical Microdevices,

14. Rapid fabrication of 3D extracellular microenvironments using dynamic optical projection stereolithography. ADVANCED MATERIALS

15. Cancer cell migration within 3D layer-by-layer microfabricated photocrosslinked PEG scaffolds with tunable stiffness BIOMATERIALS

8. Three-dimensional polymer constructs exhibiting a tunable negative Poisson’s ratio ADVANCED FUNCTIONAL MATERIALS

7. Femtosecond laser-assisted optoporation for drug and gene delivery into single mammalian cells. JOURNAL OF BIOMEDICAL TECHNOLOGY

6. Growth of high-aspect ratio horizontally-aligned ZnO nanowire arrays JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY

5. Effects of protein solution composition on the time-dependent functional activity of fibrinogen on surfaces LANGMUIR

4. AFM measurements of interactions between the platelet integrin receptor GPIIbIIIa and fibrinogen COLLOIDS AND SURFACES B: BIOINTERFACES

3. Measuring the time-dependent functional activity of adsorbed fibrinogen by atomic force microscopy. LANGMUIR, 24(16), pp.8801-8806

2. Immunological identification of fibrinogen in multi-component protein films by AFM imaging Micron

1. Characterization of surface microphase structure of poly(urethane urea) biomaterials by nanoscale indentation with AFM Journal of Biomaterial Science Polymer Edition