Поисковый запрос: (<.>S=НЕЙРОИНТЕРФЕЙСЫ<.>) |
Общее количество найденных документов : 30
Показаны документы с 1 по 20
|
|
1.
| Poly(vinyl alcohol)/poly(acrylic acid) hydrogel coatings for improving electrode - Neural tissue interface // Biomaterials, 2009. Vol. 30, N 25.-С.4143-4151
|
2.
| Green Rylie A. Cell attachment functionality of bioactive conducting polymers for neural interfaces // Biomaterials, 2009. Vol. 30, N 22.-С.3637-3644
|
3.
| Enzyme-based choline and l-glutamate biosensor electrodes on silicon microprobe arrays // Biosens. and Bioelectron., 2010. Vol. 26, N 2.-С.477-484
|
4.
| Interfacing conducting polymer nanotubes with the central nervous system: Chronic neural recording using poly(3,4-ethylenedioxythiophene) nanotubes // Adv. Mater.. -Germany, 2009. Vol. 21, N 37.-С.3764-3770
|
5.
| Perspective in nanoneural electronic implants with wireless power-feed and sensory control // Trans. ASME. J. Nanotechnol. Eng. and Med., 2010. Vol. 1, N 2.-С.021007/1-021007/14
|
6.
| Skeletal myotube integration with planar microelectrode arrays in vitro for spatially selective recording and stimulation: A comparison of neuronal and myotube extracellular action potentials // Biotechnol. Progr., 2011. Vol. 27, N 3.-С.891-895
|
7.
| Cho Y. The effect of an electrically conductive carbon nanotube/collagen composite on neurite outgrowth of PC12 cells // J. Biomed. Mater. Res. A, 2010. Vol. 95, N 2.-С.510-517
|
8.
| Cho Y. The effect of an electrically conductive carbon nanotube/collagen composite on neurite outgrowth of PC12 cells // J. Biomed. Mater. Res. A, 2010. Vol. 95, N 2.-С.510-517
|
9.
| Directing neuronal cell growth on implant material surfaces by microstructuring // J. Biomed. Mater. Res. B, 2012. Vol. 100, N 4.-С.940-947
|
10.
| Growth of E18 Rat hippocampal neuronal cells on nanostructured surfaces for enhanced electrical stimulation and recording // J. Nanosci. and Nanotechnol., 2012. Vol. 12, N 3.-С.2120-2125
|
11.
| Molecular communication and networking: Opportunities and challenges // IEEE Trans. Nanobiosci., 2012. Vol. 11, N 2.-С.135-148
|
12.
| Pt-Al [2]O[3] interfacial bonding in implantable hermetic feedthroughs: Morphology and orientation // J. Biomed. Mater. Res. B, 2012. Vol. 100, N 3.-С.817-824
|
13.
| Multifunctional microelectrode array (mMEA) chip for neural-electrical and neural-chemical interfaces: Characterization of comb interdigitated electrode towards dopamine detection // Biosens. and Bioelectron., 2013. Vol. 41.-С.602-607
|
14.
| Neurite outgrowth of PC12 cells on diX (parylene) family materials // Biotechnol. Progr., 2012. Vol. 28, N 2.-С.587-590
|
15.
| Comparative analysis of system identification techniques for nonlinear modeling of the neuron-microelectrode junction // J. Comput. and Theor. Nanosci., 2013. Vol. 10, N 3.-С.573-580
|
16.
| Kim R. Gold nanograin microelectrodes for neuroelectronic interfaces // Biotechnol. J., 2013. Vol. 8, N 2.-С.206-214
|
17.
| Chemically functionalized single-walled carbon nanotube films modulate the morpho-functional and proliferative characteristics of astrocytes // Nano Lett., 2013. Vol. 13, N 9.-С.4387-4392
|
18.
| Miled Dielectrophoresis-based integrated lab-on-chip for nano and micro-particles manipulation and capacitive detection // IEEE Trans. Biomed. Circuits and Syst., 2012. Vol. 6, N 2.-С.120-132
|
19.
| Vertical nanowire electrode arrays as a scalable platform for intracellular interfacing to neuronal circuits // Nature Nanotechnol., 2012. Vol. 7, N 3.-С.180-184
|
20.
| Genetically engineered bacteriophage delivers an tumor necrosis factor alpha antagonist coating on neural electrodes // Biomed. Mater., 2014. Vol. 9, N 1.-С.015009
|
&uf('+1W2226#',v2226), ?>
|
|