Role of semiconductivity and ion transport in the electrical conduction of melanin.
about
Interactions of iron, dopamine and neuromelanin pathways in brain aging and Parkinson's diseaseBiologically derived melanin electrodes in aqueous sodium-ion energy storage devicesCalcium-Mediated Control of Polydopamine Film Oxidation and Iron ChelationTowards eumelanin@zeolite hybrids: pore-size-controlled 5,6-dihydroxyindole polymerization.A survey of photogeochemistryHigh ionic strength formation of DOPA-melanin coating for loading and release of cationic antimicrobial compounds.Reverse Engineering Applied to Red Human Hair Pheomelanin Reveals Redox-Buffering as a Pro-Oxidant Mechanism.Structural control of mixed ionic and electronic transport in conducting polymers.Long-Range Proton Conduction across Free-Standing Serum Albumin MatsH+-type and OH- -type biological protonic semiconductors and complementary devices.Melanins and melanogenesis: methods, standards, protocols."Green" electronics: biodegradable and biocompatible materials and devices for sustainable future.Pheomelanin-induced oxidative stress: bright and dark chemistry bridging red hair phenotype and melanoma.Integration of inorganic nanostructures with polydopamine-derived carbon: tunable morphologies and versatile applications.Inducing self-rotation of cells with natural and artificial melanin in a linearly polarized alternating current electric field.Advanced Photoacoustic Imaging Applications of Near-Infrared Absorbing Organic Nanoparticles.The Supramolecular Buildup of Eumelanin: Structures, Mechanisms, Controllability.Eumelanin broadband absorption develops from aggregation-modulated chromophore interactions under structural and redox control.Microwave-Induced Chemotoxicity of Polydopamine-Coated Magnetic Nanocubes.A Palladium-Binding Deltarhodopsin for Light-Activated Conversion of Protonic to Electronic Currents.Electronic structure calculations of ESR parameters of melanin units.Observation of dielectric universalities in albumin, cytochrome C and Shewanella oneidensis MR-1 extracellular matrix.Replacing Nitrogen by Sulfur: From Structurally Disordered Eumelanins to Regioregular Thiomelanin Polymers.Impedance spectroscopy of single bacterial nanofilament reveals water-mediated charge transfer.Electron Hopping Across Hemin-Doped Serum Albumin Mats on Centimeter-Length Scales.The structural impact of water sorption on device-quality melanin thin films.Formation of polydopamine nanofibers with the aid of folic acid.Pigmented Silk Nanofibrous Composite for Skeletal Muscle Tissue Engineering.Evidence of Porphyrin-Like Structures in Natural Melanin Pigments Using Electrochemical Fingerprinting.Photoresponsive hydrogel networks using melanin nanoparticle photothermal sensitizers.Redox activity of melanin from the ink sac of Sepia officinalis by means of colorimetric oxidative assay.Biodegradable Polymeric Materials in Degradable Electronic Devices.The photoreactive free radical in eumelanin.Biological components and bioelectronic interfaces of water splitting photoelectrodes for solar hydrogen production.Catechol-mediated reversible binding of multivalent cations in eumelanin half-cells.Atypical structural and π-electron features of a melanin polymer that lead to superior free-radical-scavenging properties.Proton Conduction in a Tyrosine-Rich Peptide/Manganese Oxide Hybrid NanofilmElucidation of the hierarchical structure of natural eumelaninsAn all-solid-state biocompatible ion-to-electron transducer for bioelectronicsA Hybrid Ionic-Electronic Conductor: Melanin, the First Organic Amorphous Semiconductor?
P2860
Q28391762-D59E6476-EFD7-4187-B7CE-846FC460E37EQ28660927-CC9E801E-2746-489F-9C07-F28C06F9CD7CQ28817185-C0696110-E617-43D9-94E3-ED9CAD744097Q30729181-102A42AF-5970-408F-B1F6-097292BD58A1Q34552343-A200289D-2363-441C-9D32-A4B5D8B5D15FQ35654456-27774D79-6DFC-463B-B29F-B3E8260A237DQ36376145-F2845C75-73B3-42F6-B7D8-714F03C552A1Q36819666-782CF620-1CEC-4855-BC0B-23B95F268234Q36886555-57A29836-987D-43FD-8925-F6587C916AC8Q37211932-B8F6F198-C8C3-4E6F-BADF-7C35329A1652Q38109642-007541B2-3BBE-4751-9E3C-B1F432D508BEQ38152208-ECDAD91D-5C03-43E7-AA28-8B7B9731D997Q38210674-E3C09DFB-8DF9-4C80-910A-5E5567788F8FQ38691816-B5E2060D-3111-4A87-8841-A5EDB7D414DAQ39276626-3DEE299D-C962-4229-B863-7D72BC90575CQ39361585-54A41E84-B0B7-4723-95E2-04D338A013B4Q41660942-18ABA57A-317D-4FA6-BF60-8063043B8383Q42040437-AEA758E0-E4BA-419D-B49B-2144984976C2Q43241589-21318807-6C71-4145-8420-C66913D2691DQ45943709-E52F7D6B-DF04-459D-A2F9-127E19AFB215Q46770844-E07E2FD8-2D60-4AAE-B51B-4FC74E548A08Q47147333-98733877-945B-4AF8-8FB4-CF73D1625C90Q47162503-73824A76-AC11-45EA-9207-7B615D10FEA4Q47652650-14336EB9-24E6-46B5-A714-ED1D24A5E3A1Q47823153-19972A26-50F1-4009-90AF-BD5BCB7AB78CQ50875451-04196533-0BF3-40A5-89BC-7E0C16675F5AQ51061684-E22B40B7-DBFB-405F-9BF6-11022BDCA920Q51317137-4FFAEF1D-E414-4E83-9E14-EE2746EEA166Q51484911-1C770930-E5A6-42ED-8C3F-B269500B04CBQ51745292-A9B2A8ED-B1D1-4C43-BD54-87A8746DEE07Q51798570-C7EE7D26-BCB5-47C9-BA22-D7E7B94F11AAQ52327248-B9270937-7EEC-4D3E-931E-6CFDA29FC14AQ52620132-95A0160B-5BB9-4578-A709-776E1B9C199DQ53361255-6CDEC59D-8437-4662-B00B-57DC9A31853AQ53465410-3789A2D9-80DD-4FAD-920E-1C677B87DEB5Q54765604-8684F959-E6C7-47D3-A3DE-2FDF7F2A359AQ55033895-187E4DD8-5038-4985-8073-9A4806BA6065Q57182029-8F992EE2-0371-4077-ABFE-AA4097133BA2Q58451979-49DC816B-DE0E-4394-91FC-5A25E5C2D97EQ58452083-5A135E94-E17F-4EDD-8DFF-BEB8FC963F51
P2860
Role of semiconductivity and ion transport in the electrical conduction of melanin.
description
2012 nî lūn-bûn
@nan
2012 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
Role of semiconductivity and ion transport in the electrical conduction of melanin.
@ast
Role of semiconductivity and ion transport in the electrical conduction of melanin.
@en
Role of semiconductivity and ion transport in the electrical conduction of melanin.
@nl
type
label
Role of semiconductivity and ion transport in the electrical conduction of melanin.
@ast
Role of semiconductivity and ion transport in the electrical conduction of melanin.
@en
Role of semiconductivity and ion transport in the electrical conduction of melanin.
@nl
prefLabel
Role of semiconductivity and ion transport in the electrical conduction of melanin.
@ast
Role of semiconductivity and ion transport in the electrical conduction of melanin.
@en
Role of semiconductivity and ion transport in the electrical conduction of melanin.
@nl
P2093
P2860
P50
P356
P1476
Role of semiconductivity and ion transport in the electrical conduction of melanin.
@en
P2093
Benjamin J Powell
Graeme R Hanson
Ian R Gentle
P2860
P304
P356
10.1073/PNAS.1119948109
P407
P577
2012-05-21T00:00:00Z