Inkjet assisted fabrication of planar biocompatible memristors.
| Autor: | Illarionov GA; Laboratory of Solution Chemistry of Advanced Materials and Technologies, ITMO University Lomonosova str. 9 St. Petersburg 191002 Russia maximm@alumni.ntnu.no morozov@scamt-itmo.ru., Kolchanov DS; Laboratory of Solution Chemistry of Advanced Materials and Technologies, ITMO University Lomonosova str. 9 St. Petersburg 191002 Russia maximm@alumni.ntnu.no morozov@scamt-itmo.ru., Kuchur OA; Laboratory of Solution Chemistry of Advanced Materials and Technologies, ITMO University Lomonosova str. 9 St. Petersburg 191002 Russia maximm@alumni.ntnu.no morozov@scamt-itmo.ru., Zhukov MV; Laboratory of Solution Chemistry of Advanced Materials and Technologies, ITMO University Lomonosova str. 9 St. Petersburg 191002 Russia maximm@alumni.ntnu.no morozov@scamt-itmo.ru.; Institute for Analytical Instrumentation RAS Ivan Chernykh str. 31-33 St. Petersburg 198095 Russia., Sergeeva E; Laboratory of Solution Chemistry of Advanced Materials and Technologies, ITMO University Lomonosova str. 9 St. Petersburg 191002 Russia maximm@alumni.ntnu.no morozov@scamt-itmo.ru., Krishtop VV; Laboratory of Solution Chemistry of Advanced Materials and Technologies, ITMO University Lomonosova str. 9 St. Petersburg 191002 Russia maximm@alumni.ntnu.no morozov@scamt-itmo.ru.; Research Center, Ivanovo State Medical Academy Sheremetevsky ave. 8 Ivanovo 153012 Russia., Vinogradov AV; Laboratory of Solution Chemistry of Advanced Materials and Technologies, ITMO University Lomonosova str. 9 St. Petersburg 191002 Russia maximm@alumni.ntnu.no morozov@scamt-itmo.ru., Morozov MI; Laboratory of Solution Chemistry of Advanced Materials and Technologies, ITMO University Lomonosova str. 9 St. Petersburg 191002 Russia maximm@alumni.ntnu.no morozov@scamt-itmo.ru. |
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| Jazyk: | angličtina |
| Zdroj: | RSC advances [RSC Adv] 2019 Nov 05; Vol. 9 (62), pp. 35998-36004. Date of Electronic Publication: 2019 Nov 05 (Print Publication: 2019). |
| DOI: | 10.1039/c9ra08114c |
| Abstrakt: | In this study we address a novel design of a planar memristor and investigate its biocompatibility. An experimental prototype of the proposed memristor assembly has been manufactured using a hybrid nanofabrication method, combining sputtering of electrodes, patterning the insulating trenches, and filling them with a memristive substance. To pattern the insulating trenches, we have examined two nanofabrication techniques employing either a focused ion beam or a cantilever tip of an atomic force microscope. Inkjet printing has been used to fill the trenches with the functional titania ink. The experimental prototypes have qualitatively demonstrated memristive current-voltage behavior, as well as high biocompatibility. Competing Interests: There are no conflicts to declare. (This journal is © The Royal Society of Chemistry.) |
| Databáze: | MEDLINE |
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