David C. Martin
David C. Martin
Karl W. and Renate Böer Professor of Materials Science and Engineering and Biomedical Engineering
Verified email at - Homepage
Cited by
Cited by
Processing and microstructural characterization of porous biocompatible protein polymer thin films
CJ Buchko, LC Chen, Y Shen, DC Martin
Polymer 40 (26), 7397-7407, 1999
Neuronal cell loss accompanies the brain tissue response to chronically implanted silicon microelectrode arrays
R Biran, DC Martin, PA Tresco
Experimental neurology 195 (1), 115-126, 2005
Conducting‐polymer nanotubes for controlled drug release
MR Abidian, DH Kim, DC Martin
Advanced materials 18 (4), 405-409, 2006
Biphasic Janus particles with nanoscale anisotropy
KH Roh, DC Martin, J Lahann
Nature materials 4 (10), 759-763, 2005
Chronic neural recordings using silicon microelectrode arrays electrochemically deposited with a poly (3, 4-ethylenedioxythiophene)(PEDOT) film
KA Ludwig, JD Uram, J Yang, DC Martin, DR Kipke
Journal of neural engineering 3 (1), 59, 2006
Surface modification of neural recording electrodes with conducting polymer/biomolecule blends
X Cui, VA Lee, Y Raphael, JA Wiler, JF Hetke, DJ Anderson, DC Martin
Journal of Biomedical Materials Research: An Official Journal of The Society …, 2001
Electrochemical deposition and characterization of poly (3, 4-ethylenedioxythiophene) on neural microelectrode arrays
X Cui, DC Martin
Sensors and Actuators B: Chemical 89 (1-2), 92-102, 2003
In vivo studies of polypyrrole/peptide coated neural probes
X Cui, J Wiler, M Dzaman, RA Altschuler, DC Martin
Biomaterials 24 (5), 777-787, 2003
Ordered bicontinuous double-diamond structure of star block copolymers: a new equilibrium microdomain morphology
EL Thomas, DB Alward, DJ Kinning, DC Martin, DL Handlin Jr, LJ Fetters
Macromolecules 19 (8), 2197-2202, 1986
Polymerization of the conducting polymer poly (3, 4-ethylenedioxythiophene)(PEDOT) around living neural cells
SM Richardson-Burns, JL Hendricks, B Foster, LK Povlich, DH Kim, ...
Biomaterials 28 (8), 1539-1552, 2007
Sustained release of dexamethasone from hydrophilic matrices using PLGA nanoparticles for neural drug delivery
DH Kim, DC Martin
Biomaterials 27 (15), 3031-3037, 2006
Multifunctional nanobiomaterials for neural interfaces
MR Abidian, DC Martin
Advanced functional materials 19 (4), 573-585, 2009
Conducting‐polymer nanotubes improve electrical properties, mechanical adhesion, neural attachment, and neurite outgrowth of neural electrodes
MR Abidian, JM Corey, DR Kipke, DC Martin
small 6 (3), 421-429, 2010
Aligned electrospun nanofibers specify the direction of dorsal root ganglia neurite growth
JM Corey, DY Lin, KB Mycek, Q Chen, S Samuel, EL Feldman, DC Martin
Journal of Biomedical Materials Research Part A: An Official Journal of The …, 2007
Electrochemical deposition and characterization of conducting polymer polypyrrole/PSS on multichannel neural probes
X Cui, JF Hetke, JA Wiler, DJ Anderson, DC Martin
Sensors and Actuators A: Physical 93 (1), 8-18, 2001
The brain tissue response to implanted silicon microelectrode arrays is increased when the device is tethered to the skull
R Biran, DC Martin, PA Tresco
Journal of biomedical materials research Part A 82 (1), 169-178, 2007
A finite-element model of the mechanical effects of implantable microelectrodes in the cerebral cortex
J Subbaroyan, DC Martin, DR Kipke
Journal of neural engineering 2 (4), 103, 2005
Experimental and theoretical characterization of implantable neural microelectrodes modified with conducting polymer nanotubes
MR Abidian, DC Martin
Biomaterials 29 (9), 1273-1283, 2008
Conducting polymers grown in hydrogel scaffolds coated on neural prosthetic devices
DH Kim, M Abidian, DC Martin
Journal of Biomedical Materials Research Part A: An Official Journal of The …, 2004
Effect of immobilized nerve growth factor on conductive polymers: electrical properties and cellular response
DH Kim, SM Richardson‐Burns, JL Hendricks, C Sequera, DC Martin
Advanced Functional Materials 17 (1), 79-86, 2007
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