Sarah Richardson-Burns, Jeffrey L. Hendricks, and David C. Martin, “Electrochemical Polymerization of Conducting Polymers in Living Neural Tissue”, Journal of Neural Engineering, 4, L6-L13, (2007).

Junyan Yang, Karen Lipkin, and David C. Martin, “Electrochemical fabrication of conducting polymer poly(3,4-ethylenedioxythiophene) (PEDOT) nanofibrils on microfabricated neural prosthetic devices”, Journal of Biomaterials Science, Polymer Edition, invited contribution

to a Special Issue on “Materials for Neural Engineering”, Christine Schmidt and Stuart Cooper, editors, 18(8), 1075-1089, (2007).

Donghwan Kim, Sarah Richardson-Burns, Laura Povlich, Mohammad Reza Abidian, Sarah Spanninga, Jeffrey L. Hendricks, and David C.Martin, “Soft, Fuzzy, and Bioactive Conducting Polymer Coatings for Neural Prosthetic Devices”, Invited Review Chapter 7, in Indwelling

Neural Implants: Contending with the In-Vivo Environment, Frontiers in Neuroengineering Series, William M. Reichert, Editor, Taylor and Francis, Boca Raton, FL, (2007).

Joel P. McDonald, Jeffrey L. Hendricks, Vanita R. Mistry, David C. Martin, and Steven M. Yalisove, “Femtosecond pulsed laser patterning of poly(3,4-ethylene dioxythiophene)—poly(styrene sulfonate) thin films on gold/palladium substrates, Journal of Applied Physics, 102(1), 013107, (2007).

David C. Martin, “Organic Electronics: Polymers Manipulate Cells”, Nature Materials, 6, 626-627, (2007).

Antonio Peramo, Melanie G. Urbanchek, Sarah A. Spanninga, Laura K. Povlich, Paul Cederna, and David C. Martin, “In situ polymerization of a conductive polymer in acellular muscle tissue constructs”, Tissue Engineering A, 14(3), 423-432, (2008).

Mohammad Abidian and David C. Martin, “Experimental and Theoretical Characterization of Implantable Neural Microelectrodes Modified with Conducting Polymer Nanotubes”, Biomaterials, 29, 1273-1283, (2008).

Jeffrey L. Hendricks, Jennifer A. Chikar, Mark A. Crumling, Yehoash Raphael, and David C. Martin, “Methods and Materials for Controlled Drug Delivery in the Cochlea”, Hearing Research, 242(1-2), 117-131, (2008). Doi:10.1016/j.heares.2008.06.003

M. G. Urbanchek, L. M. Larkin, M. S. Wellington, B. E. Egeland, C. L. Marcelo, W. J. Kuzon, Jr., P. S. Cederna, Myoblast Compatibility with a Bio-synthetic Electrically Conductive Material, Supplement to Plastic Surgery Research, 121:65, 104, (2008).

M. G. Urbanchek, T. E. Wolcott, B. M. Egeland, D. R. Kipke, W. M. Kuzon, Jr., P. S. Cederna, Microscale Electrode Implantation during Nerve Repair: Effects on Recovery of Muscle Contractile Function, Nerve Conduction, and Nerve Morphology, Supplement to Plastic

Surgery Research, 121:65, 23, (2008).

T. E. Wolcott, M. G. Urbanchek, D. R. Kipke, W. M. Kuzon, Jr., P. S. Cederna, Nerve Repair with Introduction of a MEMS-Based Electrode-Effects on Reinnervated Muscle Function and Nerve Morphology, Medicine Science and Sport and Exercise-Supplement, 40:5,

S240-S241, (2008).

Mohammad Abidian and David C. Martin, “Conducting Polymers for Controlled Drug Delivery Applications”, in F. Carpi and E. Smela, eds., Biomedical Applications fo Electroactive Polymer Actuators, John Wiley & Sons, in press, (2009).

Mohammad Abidian and David C. Martin, “Multifunctional Nanobiomaterials for Neural Interfaces”, Advanced Functional Materials, in press, (2009).

Antonio Peramo, Cynthia L. Marcelo, Steven A. Goldstein, and David C. Martin, “Novel organotypic cultures of human skin explants with an implant-tissue biomaterial interface”, Journal of Biomedical Research B: Applied Biomaterials, in press, (2009).