Mohammad Reza Abidian
Mohammad Reza Abidian
Associate Professor Biomedical Engineering, University of Houston
Verified email at
Cited by
Cited by
Conducting‐polymer nanotubes for controlled drug release
MR Abidian, DH Kim, DC Martin
Advanced materials 18 (4), 405-409, 2006
A review of organic and inorganic biomaterials for neural interfaces
P Fattahi, G Yang, G Kim, MR Abidian
Advanced materials 26 (12), 1846-1885, 2014
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
Experimental and theoretical characterization of implantable neural microelectrodes modified with conducting polymer nanotubes
MR Abidian, DC Martin
Biomaterials 29 (9), 1273-1283, 2008
Technology roadmap for flexible sensors
Y Luo, MR Abidian, JH Ahn, D Akinwande, AM Andrews, M Antonietti, ...
ACS nano 17 (6), 5211-5295, 2023
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
Conducting polymers for neural prosthetic and neural interface applications
R Green, MR Abidian
Advanced Materials 27 (46), 7620-7637, 2015
Interfacing conducting polymer nanotubes with the central nervous system: Chronic neural recording using poly(3,4-ethylenedioxythiophene) nanotubes
MR Abidian, KA Ludwig, TC Marzullo, DC Martin, DR Kipke
Advanced Materials 21 (37), 3764-3770, 2009
Biologically integrated electrode devices
DC Martin, S Richardson-Burns, D Kim, JL Hendricks, L Povlich, ...
US Patent 8,005,526, 2011
Hybrid conducting polymer–hydrogel conduits for axonal growth and neural tissue engineering
MR Abidian, ED Daneshvar, BM Egeland, DR Kipke, PS Cederna, ...
WILEY‐VCH Verlag, 2012
High-performance conducting polymer nanofiber biosensors for detection of biomolecules
G Yang, KL Kampstra, MR Abidian
Advanced materials (Deerfield Beach, Fla.) 26 (29), 4954, 2014
Conducting polymers and their biomedical applications
N Yi, MR Abidian
Biosynthetic polymers for medical applications, 243-276, 2016
Electrospinning of highly aligned fibers for drug delivery applications
M Eslamian, M Khorrami, N Yi, S Majd, MR Abidian
Journal of Materials Chemistry B 7 (2), 224-232, 2019
A high performance hybrid asymmetric supercapacitor via nano-scale morphology control of graphene, conducting polymer, and carbon nanotube electrodes
Y Zhou, N Lachman, M Ghaffari, H Xu, D Bhattacharya, P Fattahi, ...
Journal of Materials Chemistry A 2 (26), 9964-9969, 2014
Microencapsulation of chemotherapeutics into monodisperse and tunable biodegradable polymers via electrified liquid jets: Control of size, shape, and drug release
P Fattahi, A Borhan, MR Abidian
Adv. Mater 25 (33), 4555-4560, 2013
Cytotoxic analysis of the conducting polymer PEDOT using myocytes
RM Miriani, MR Abidian, DR Kipke
2008 30th Annual International Conference of the IEEE Engineering in …, 2008
Hybrid bioelectrical interface device
PS Cederna, BM Egeland, MR Abidian, A Peramo, MG Urbancheck, ...
US Patent App. 12/432,343, 2009
Conducting polymer nanotube actuators for precisely controlled release of medicine and bioactive molecules
DC Martin, MR Abidian
US Patent 8,936,794, 2015
Multiphoton lithography of organic semiconductor devices for 3D printing of flexible electronic circuits, biosensors, and bioelectronics
O Dadras‐Toussi, M Khorrami, ASC Louis Sam Titus, S Majd, C Mohan, ...
Advanced Materials 34 (30), 2200512, 2022
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