참고문헌 (16)

1. Ramon-Azcon, J., Kunikata, R., Sanchez, F.J., Marco, M.P., Shiku, H., Yasukawa, T., Matsue, T.. Detection of pesticide residues using an immunodevice based on negative dielectrophoresis. Biosensors & bioelectronics, vol.24, no.6, 1592-1597.

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2. Dvir, Tal, Timko, Brian P., Kohane, Daniel S., Langer, Robert. Nanotechnological strategies for engineering complex tissues. Nature nanotechnology, vol.6, no.1, 13-22.

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3. Ramon-Azcon, J., Yasukawa, T., Lee, H.J., Matsue, T., Sanchez-Baeza, F., Marco, M.P., Mizutani, F.. Competitive multi-immunosensing of pesticides based on the particle manipulation with negative dielectrophoresis. Biosensors & bioelectronics, vol.25, no.8, 1928-1933.

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4. Dvir, Tal, Timko, Brian P., Brigham, Mark D., Naik, Shreesh R., Karajanagi, Sandeep S, Levy, Oren, Jin, Hongwei, Parker, Kevin K., Langer, Robert, Kohane, Daniel S.. Nanowired three dimensional cardiac patches. Nature nanotechnology, vol.6, no.11, 720-725.

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5. Peppas, N. A., Hilt, J. Z., Khademhosseini, A., Langer, R.. Hydrogels in Biology and Medicine: From Molecular Principles to Bionanotechnology. Advanced materials, vol.18, no.11, 1345-1360.

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6. You, Jin-Oh, Rafat, Marjan, Ye, George J. C., Auguste, Debra T.. Nanoengineering the Heart: Conductive Scaffolds Enhance Connexin 43 Expression. Nano letters : a journal dedicated to nanoscience and nanotechnology, vol.11, no.9, 3643-3648.

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7. Stout, D.A., Basu, B., Webster, T.J.. Poly(lactic-co-glycolic acid): Carbon nanofiber composites for myocardial tissue engineering applications. Acta Biomaterialia: structure-property-function relationships in biomaterials, vol.7, no.8, 3101-3112.

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8. Nichol, Jason W., Koshy, Sandeep T., Bae, Hojae, Hwang, Chang M., Yamanlar, Seda, Khademhosseini, Ali. Cell-laden microengineered gelatin methacrylate hydrogels. Biomaterials, vol.31, no.21, 5536-5544.

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9. Aubin, H., Nichol, J.W., Hutson, C.B., Bae, H., Sieminski, A.L., Cropek, D.M., Akhyari, P., Khademhosseini, A.. Directed 3D cell alignment and elongation in microengineered hydrogels. Biomaterials, vol.31, no.27, 6941-6951.

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10. MacDonald, R.A., Voge, C.M., Kariolis, M., Stegemann, J.P.. Carbon nanotubes increase the electrical conductivity of fibroblast-seeded collagen hydrogels. Acta Biomaterialia: structure-property-function relationships in biomaterials, vol.4, no.6, 1583-1592.

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11. Bal, S.. Experimental study of mechanical and electrical properties of carbon nanofiber/epoxy composites. Materials & design, vol.31, no.5, 2406-2413.

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12. Voge, Christopher M., Johns, Jeremy, Raghavan, Mekhala, Morris, Michael D., Stegemann, Jan P.. Wrapping and dispersion of multiwalled carbon nanotubes improves electrical conductivity of protein–nanotube composite biomaterials. Journal of biomedical materials research. Part A, vol.101, no.1, 231-238.

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13. Melechko, Anatoli V, Desikan, Ramya, McKnight, Timothy E, Klein, Kate L, Rack, Philip D. Synthesis of vertically aligned carbon nanofibres for interfacing with live systems. Journal of physics. D, applied physics, vol.42, no.19, 193001-.

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14. Nguyen-Vu, T. D. Barbara, Chen, Hua, Cassell, Alan M., Andrews, Russell, Meyyappan, Meyya, Li, Jun. Vertically Aligned Carbon Nanofiber Arrays: An Advance toward Electrical–Neural Interfaces. Small, vol.2, no.1, 89-94.

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15. Slaughter, Brandon V., Khurshid, Shahana S., Fisher, Omar Z., Khademhosseini, Ali, Peppas, Nicholas A.. Hydrogels in Regenerative Medicine. Advanced materials, vol.21, no.32, 3307-3329.

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16. Wang, Bin, Ma, Yanfeng, Li, Na, Wu, Yingpeng, Li, Feifei, Chen, Yongsheng. Facile and Scalable Fabrication of Well-Aligned and Closely Packed Single-Walled Carbon Nanotube Films on Various Substrates. Advanced materials, vol.22, no.28, 3067-3070.

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