Publications
Peer Reviewed Journals
1. Tejeda-Montes E, Smith KH, Poch M, Lopez-Bosque MJ, Martín, L, Alonso M, Engel E, Mata A. Engineering membrane scaffolds with both physical and biomolecular signaling. Submitted, May 2011.
2. Smith KH, Tejeda-Montes E, Poch, M, Mata A. Integrating top-down and self-assembly in the fabrication of peptide and protein-based biomedical materials. Chemical Society Reviews DOI: 10.1039/C1CS15064B.
3. Mata A. Micro and nanotechnologies for bioengineering regenerative medicine scaffolds. International Journal for Biomedical Engineering and Technology 5(2/3), 266-291, 2011.
4. Zhang S, Greenfield M, Mata A, Palmer LC, Bitton R, Mantei JR, Aparicio C, Olvera de la Cruz M, Stupp SI. A self-assembly pathway to aligned monodomain gels. Nature Materials 9: 594-601, 2010.
5. Mata A, Geng Y, Henrikson KJ, Aparicio C, Stock SR, Satcher RL, Stupp SI. Bone Regeneration Mediated by Biomimetic Mineralization of a Nanofiber Matrix. Biomaterials 31:6004-6012, 2010.
6. Kim EJ, Boehm CA, Mata A, Fleischman AJ, Muschler GF, Roy S. Post microtextures accelerate cell proliferation and osteogenesis. Acta Biomateriala 6(1): 160-169, 2010.
7. Mata A, Kim EJ, Boehm C, Fleischman AJ, Muschler G, Roy S. Microfabricated scaffolds for bone tissue engineering. Biomaterials 30: 4610-4617, 2009.
8. Mata A, Hsu L, Capito R, Aparicio C, Henrikson K, Stupp SI. Micro-patterning of bioactive self-assembling gels. Soft Matter 5: 1228-1236, 2009.
9. Capito R, Azevedo H, Gelichko Y, Mata A, Stupp SI. Self-assembly of large and small molecules into hierarchically ordered sacs and membranes. Science 319: 1812-1816, 2008.
10. Huang Z, Sargeant T, Hulvat JF, Mata A, Bringas P, Koh CY, Stupp SI, Snead ML. Bioactive nanofibers instruct cells to proliferate and differentiate during enamel regeneration Journal of Bone and Mineral Research 23: 1995-2006, 2008.
11. Sargeant TD, Guler MO, Oppenheimer SM, Mata A, Satcher RL, Dunand DC, Stupp SI. Hybrid bone implants: self-assembly of peptide amphiphile nanofibers within porous titanium. Biomaterials, 29(2): 161-171, 2008.
12. Mata A, Boehm C, Fleischman AJ, Muschler G, Roy S. Connective tissue progenitor cell growth characteristics on textured substrates. International Journal of Nanomedicine 2(3): 389-406, 2007.
13. Mata A, Fleischman AJ, Roy S. Fabrication of multi-layer SU-8 microstructures. Journal of Micromechanics and Microengineering 16: 276-284, 2006.
14. Mata A, Fleischman AJ, Roy S. Characterization of polydimethylsiloxane (PDMS) properties for biomedical micro/nanosystems. Biomedical Microdevices 7(4): 281-293, 2005.
15. Stupp SI, Donners JJJM, Li LS, Mata A. Expanding frontiers in biomaterials. MRS Bulletin 30: 838-844, 2005.
16. Mata A, Su X, Fleischman AJ, Roy S, Miller S, Banks B, Midura RJ. Cell adhesion to a micro-textured surface in the absence of exogenous adhesion proteins. IEEE Transactions in Nanobioscience 2(4): 287-294, 2003.
17. Mata A, Boehm C, Fleischman AJ, Muschler G, Roy S. Analysis of connective tissue progenitor cell behavior on polydimethylsiloxane smooth and channel micro-textures. Biomedical Microdevices 4(4): 267-275, 2002.
18. Mata A, Boehm C, Fleischman AJ, Muschler G, Roy S. Growth of connective tissue progenitor cells on microtextured polydimethylsiloxane surfaces. Journal of Biomedical Materials Research. 62: 499-506, 2002.
19. Mata A, Vega-Baudrit J, Montero M, Pereira R, Saenz A. Biomechanical study of polymeric materials for the manufacturing of orthopedic insoles. Tecnología Ciencia Educación 16(2): 69-76, 2001.
Book Chapters
1. Mata A, Palmer L, Tejeda-Montes E, Stupp SI. “Design of Biomolecules for Nanoengineered Biomaterials for Regenerative Medicine” Methods in Molecular Biology: Nanotechnology in Regenerative Medicine, Humana Press, USA. Springer Publishing Group. In Press.
2. Capito RM, Mata A, Stupp SI. “Self-Assembling Peptide-Based Nanostructures for Regenerative Medicine” Nanotechnology, Volume 5: Nanomedicine. Weinheim: WILEY-VCH Verlag GmbH & Co. KGaA; 2009, 385-412.
Conference Proceedings
1. Mata A, Fleischman AJ, Roy S. Microfabrication of 3D micro-textured scaffolds for tissue engineering. Proc. Am. Soc. Precision Eng. Spring Topical Meeting 35; 15, 2005.
2. Mata A, Fleischman AJ, Roy S. Microfabricated 3D scaffolds for tissue engineering applications. Mater Res. Soc. Symp. Proc. 845; AA4.3.1-AA4.3.7, 2005.
