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Volumn 11, Issue 7, 2011, Pages 2901-2904
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Formation of hydrophilic nanochannels in the membrane of living cells by the ringlike stable protein-SP1
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Author keywords
lipid membrane; nanochannel; neuroelectronic interface; neurons; SP1
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Indexed keywords
CRITICAL PROBLEMS;
ELECTRONIC SENSING;
ELECTRONIC SENSING DEVICES;
LIPID MEMBRANES;
LIVING CELL;
NANO CHANNELS;
NEURO-ELECTRONIC HYBRIDS;
NEUROELECTRONIC INTERFACE;
SILICON SURFACES;
SP1;
CELL MEMBRANES;
HYBRID SYSTEMS;
NEURONS;
SENSORS;
HYDROPHILICITY;
GOLD;
NANOMATERIAL;
SILICON;
TRANSCRIPTION FACTOR SP1;
WATER;
ANIMAL;
APLYSIA;
ARTICLE;
CELL MEMBRANE;
CHEMICAL STRUCTURE;
CHEMISTRY;
NANOTECHNOLOGY;
NERVE CELL;
PARTICLE SIZE;
SURFACE PROPERTY;
WETTABILITY;
ANIMALS;
APLYSIA;
CELL MEMBRANE;
GOLD;
MODELS, MOLECULAR;
NANOSTRUCTURES;
NANOTECHNOLOGY;
NEURONS;
PARTICLE SIZE;
SILICON;
SP1 TRANSCRIPTION FACTOR;
SURFACE PROPERTIES;
WATER;
WETTABILITY;
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EID: 79960262278
PISSN: 15306984
EISSN: 15306992
Source Type: Journal
DOI: 10.1021/nl201368w Document Type: Article |
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Times cited : (13)
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References (14)
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