review article | Q7318358 |
scholarly article | Q13442814 |
P50 | author | Gordon Wallace | Q5585964 |
Laura Poole-Warren | Q40212203 | ||
Rylie Green | Q48472222 | ||
Nigel H Lovell | Q57022166 | ||
P433 | issue | 24-25 | |
P304 | page(s) | 3393-3399 | |
P577 | publication date | 2008-05-23 | |
P1433 | published in | Biomaterials | Q15751139 |
P1476 | title | Conducting polymers for neural interfaces: challenges in developing an effective long-term implant | |
P478 | volume | 29 |
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Q88877464 | A Materials Roadmap to Functional Neural Interface Design |
Q57365124 | A facile approach for the fabrication of core–shell PEDOT nanofiber mats with superior mechanical properties and biocompatibility |
Q30764149 | A novel seizure detection algorithm informed by hidden Markov model event states |
Q35216596 | A review of organic and inorganic biomaterials for neural interfaces |
Q30583561 | Action at a distance: functional drug delivery using electromagnetic-field-responsive polypyrrole nanowires |
Q38590806 | Advanced Materials for Neural Surface Electrodes |
Q89643676 | All-Polymer Conducting Fibers and 3D Prints via Melt Processing and Templated Polymerization |
Q99237539 | Analysis of a poly(ε-decalactone)/silver nanowire composite as an electrically conducting neural interface biomaterial |
Q42221306 | Assembly of viral hydrogels for three-dimensional conducting nanocomposites |
Q64102440 | Bioactive Neuroelectronic Interfaces |
Q57778357 | Biodegradable electroactive polymers for electrochemically-triggered drug delivery |
Q36099534 | Bioelectronic neural pixel: Chemical stimulation and electrical sensing at the same site. |
Q34386728 | Biological and electrophysiologic effects of poly(3,4-ethylenedioxythiophene) on regenerating peripheral nerve fibers |
Q33716069 | Biologically derived soft conducting hydrogels using heparin-doped polymer networks |
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Q47763828 | Conducting Polymer Microcups for Organic Bioelectronics and Drug Delivery Applications |
Q36377727 | Conducting Polymers for Neural Prosthetic and Neural Interface Applications |
Q88442188 | Conducting Polymers for Tissue Engineering |
Q30830858 | Conducting polymer-based multilayer films for instructive biomaterial coatings |
Q39017318 | Conducting polymer-hydrogels for medical electrode applications. |
Q41770201 | Conducting-polymer nanotubes improve electrical properties, mechanical adhesion, neural attachment, and neurite outgrowth of neural electrodes. |
Q49481840 | Conductive Hydrogel Electrodes for Delivery of Long-Term High Frequency Pulses |
Q39237722 | Conductive PANi/PEGDA macroporous hydrogels for nerve regeneration. |
Q50502251 | Conductive hydrogels: mechanically robust hybrids for use as biomaterials. |
Q53428992 | Controlled and sustained release of drugs from dendrimer-nanoparticle composite films. |
Q51311353 | Cutaneous Recording and Stimulation of Muscles Using Organic Electronic Textiles. |
Q37658816 | Development of bioactive conducting polymers for neural interfaces |
Q57817565 | Does Impedance Matter When Recording Spikes With Polytrodes? |
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Q52682418 | Effective gamma-ray sterilization and characterization of conductive polypyrrole biomaterials. |
Q53190030 | Electrical Stimulation of Human Mesenchymal Stem Cells on Conductive Nanofibers Enhances their Differentiation toward Osteogenic Outcomes. |
Q57778349 | Electrical stimulation of human mesenchymal stem cells on biomineralized conducting polymers enhances their differentiation towards osteogenic outcomes |
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Q36069353 | Electroactive biomimetic collagen-silver nanowire composite scaffolds |
Q55237441 | Electroactive poly(sulfobetaine-3,4-ethylenedioxythiophene) (PSBEDOT) with controllable antifouling and antimicrobial properties. |
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Q48290092 | Electrochemically driven, electrode-addressable formation of functionalized polydopamine films for neural interfaces |
Q47964979 | Electrostimulated Release of Neutral Drugs from Polythiophene Nanoparticles: Smart Regulation of Drug-Polymer Interactions. |
Q91974335 | Engineered chitosan for improved 3D tissue growth through Paxillin-FAK-ERK activation |
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Q57176844 | Flexible and Stretchable Bio-Integrated Electronics Based on Carbon Nanotube and Graphene |
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Q26827783 | Future of seizure prediction and intervention: closing the loop |
Q89810408 | GHz Ultrasonic Chip-Scale Device Induces Ion Channel Stimulation in Human Neural Cells |
Q38702962 | Graft Copolymers with Conducting Polymer Backbones: A Versatile Route to Functional Materials. |
Q42557704 | High performance conducting polymer nanofiber biosensors for detection of biomolecules |
Q41440663 | Highly Aligned Poly(3,4-ethylene dioxythiophene) (PEDOT) Nano- and Microscale Fibers and Tubes |
Q40502143 | Highly Stretchable, Compliant, Polymeric Microelectrode Arrays for In Vivo Electrophysiological Interfacing |
Q53352513 | Hybrid conducting polymer-hydrogel conduits for axonal growth and neural tissue engineering. |
Q47212328 | Improved 3D Hydrogel Cultures of Primary Glial Cells for In Vitro Modelling of Neuroinflammation. |
Q57615101 | In vitro and in vivo toxicity of rinsed and aged nanocellulose-polypyrrole composites |
Q64969928 | In vitro electrochemical characterization of polydopamine melanin as a tissue stimulating electrode material. |
Q41785591 | In vivo biocompatibility of PLGA-polyhexylthiophene nanofiber scaffolds in a rat model |
Q54974177 | Incorporating catechol into electroactive polypyrrole nanowires on titanium to promote hydroxyapatite formation. |
Q41400263 | Integrated zwitterionic conjugated poly(carboxybetaine thiophene) as a new biomaterial platform |
Q36025224 | Interfacing Conducting Polymer Nanotubes with the Central Nervous System: Chronic Neural Recording using Poly(3,4-ethylenedioxythiophene) Nanotubes |
Q38959175 | Into the groove: instructive silk-polypyrrole films with topographical guidance cues direct DRG neurite outgrowth |
Q41439977 | Invasive Intraneural Interfaces: Foreign Body Reaction Issues |
Q46741952 | Long-Term Recordings of Multiple, Single-Neurons for Clinical Applications: The Emerging Role of the Bioactive Microelectrode. |
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Q51545911 | Manipulating location, polarity, and outgrowth length of neuron-like pheochromocytoma (PC-12) cells on patterned organic electrode arrays. |
Q35923597 | Materials and fractal designs for 3D multifunctional integumentary membranes with capabilities in cardiac electrotherapy |
Q48704098 | Materials for bioelectronics: organic electronics meets biology |
Q57370155 | Mediating conducting polymer growth within hydrogels by controlling nucleation |
Q48099169 | Microfabricated Probes for Studying Brain Chemistry: A Review. |
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Q36999787 | Neural interfaces at the nanoscale |
Q37135581 | Neuroprosthetic technology for individuals with spinal cord injury |
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Q30404264 | Optical Stimulation of Neurons |
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Q47318706 | POSS-ProDOT Crosslinking of PEDOT. |
Q33713698 | Patterning methods for polymers in cell and tissue engineering |
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Q46081134 | Sensing Conductive Hydrogels for Rapid Detection of Cytokines in Blood. |
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Q36505759 | Stiffness, strength and adhesion characterization of electrochemically deposited conjugated polymer films |
Q33720588 | Stretchable polymeric multielectrode array for conformal neural interfacing |
Q41851556 | Surface modification of the conducting polymer, polypyrrole, via affinity peptide |
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Q30360672 | Textile-Based Electronic Components for Energy Applications: Principles, Problems, and Perspective. |
Q38771092 | The Pursuit of Chronically Reliable Neural Interfaces: A Materials Perspective |
Q51139332 | The Scaffold Immune Microenvironment: Biomaterial-Mediated Immune Polarization in Traumatic and Nontraumatic Applications. |
Q39649965 | The control of neural cell-to-cell interactions through non-contact electrical field stimulation using graphene electrodes |
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Q30457690 | The use of a dual PEDOT and RGD-functionalized alginate hydrogel coating to provide sustained drug delivery and improved cochlear implant function |
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Q38954326 | Two-Dimensional Nanomaterials for Biomedical Applications: Emerging Trends and Future Prospects |
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