Translating Electronic Currents to Precise Acetylcholineâ Induced Neuronal Signaling Using an Organic Electrophoretic Delivery Device
about
Regulating plant physiology with organic electronics.Ion bipolar junction transistors.Bioelectronic neural pixel: Chemical stimulation and electrical sensing at the same site.Flexible Organic Electronics in Biology: Materials and Devices.Influence of Electrical and Ionic Conductivities of Organic Electronic Ion Pump on Acetylcholine Exchange Performance.Organic electrochemical transistor array for recording transepithelial ion transport of human airway epithelial cells.Organic bioelectronics in medicine.Direct measurement of ion mobility in a conducting polymer.Normal and inverted regimes of charge transfer controlled by density of states at polymer electrodes.Printing Inks of Electroactive Polymer PEDOT:PSS: The Study of Biocompatibility, Stability and Electrical Properties.Conjugated Polymer for Voltage-Controlled Release of Molecules.Controlling epileptiform activity with organic electronic ion pumps.Local Chemical Stimulation of Neurons with the Fluidic Force Microscope (FluidFM).Exploring the potential of ionic bipolar diodes for chemical neural interfaces.Electronic control of platelet adhesion using conducting polymer microarrays.A lysinated thiophene-based semiconductor as a multifunctional neural bioorganic interface.Detection of Glutamate and Acetylcholine with Organic Electrochemical Transistors Based on Conducting Polymer/Platinum Nanoparticle CompositesBiodegradable electroactive polymers for electrochemically-triggered drug deliveryBiomimetic Interfaces Reveal Activation Dynamics of C-Reactive Protein in Local MicroenvironmentsHydrogen-bonds in molecular solids – from biological systems to organic electronicsExotic materials for bio-organic electronics
P2860
Q33650940-FBBBC9FD-65F0-46CD-8A96-F7B8CE7D7A09Q33933263-6777F0B0-86B4-4FCA-8804-F7DB72A27CBDQ36099534-40ECA3D8-C397-4702-989B-1EED0EBDD56EQ38267875-4220F394-2536-453B-98EE-9CEF7851763BQ38647381-CF6A711D-E8F3-4244-B5B8-0DC7EDE076CEQ39106211-48510528-CE72-4955-A32C-57F19C8055D4Q39128027-D7D21009-0568-4A98-9A91-B2C3B14AED60Q43807638-5455B399-0DBC-4FE6-86BD-7A7829E3E012Q46279987-929BD5D9-CE36-4F6E-8F04-687471804405Q47222681-0957306B-30B1-484F-977A-DB138D02CCF2Q47925687-C6CA24AB-D929-492B-B87E-1FE13338D9D5Q48233693-4B3E1C47-8D02-4E22-85E5-4B9B87991842Q50099016-2EF827EA-3F05-4980-ADCF-2AE72495F892Q50145833-C376409A-F028-49D0-B3A9-A634D6CB05D7Q51513439-7C2FF965-7C72-4FC6-A51F-136606E36FC3Q53304256-7BED582F-5AF3-4E7F-B9C6-F4BDD2975172Q57713738-6F1A777E-727B-4E70-9376-BB063DF27A37Q57778357-96953629-EC13-47D7-9C00-40C8759CDEEFQ57969517-C746615B-E9FA-4184-A6C7-16B9D76A147DQ58911571-537A7513-74E1-4F19-8E0D-CF0C1984277FQ58911685-00460114-0B75-4E85-8765-1447F11D4A87
P2860
Translating Electronic Currents to Precise Acetylcholineâ Induced Neuronal Signaling Using an Organic Electrophoretic Delivery Device
description
article
@en
im November 2009 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в листопаді 2009
@uk
name
Translating Electronic Current ...... lectrophoretic Delivery Device
@en
Translating Electronic Current ...... lectrophoretic Delivery Device
@nl
type
label
Translating Electronic Current ...... lectrophoretic Delivery Device
@en
Translating Electronic Current ...... lectrophoretic Delivery Device
@nl
prefLabel
Translating Electronic Current ...... lectrophoretic Delivery Device
@en
Translating Electronic Current ...... lectrophoretic Delivery Device
@nl
P2093
P50
P356
P1433
P1476
Translating Electronic Current ...... lectrophoretic Delivery Device
@en
P2093
Edwin W. H. Jager
Joakim Isaksson
Karin C. Larsson
Magnus Berggren
Peter Kjäll
Sindhulakshmi Kurup
P304
P356
10.1002/ADMA.200900187
P407
P577
2009-11-26T00:00:00Z