2017年第64回応用物理学会春季学術講演会

講演情報

一般セッション(口頭講演)

9 応用物性 » 9.2 ナノワイヤ・ナノ粒子

[15a-421-1~12] 9.2 ナノワイヤ・ナノ粒子

2017年3月15日(水) 09:00 〜 12:15 421 (421)

深田 直樹(物材機構)、加納 伸也(神大)

11:15 〜 11:30

[15a-421-9] Ag-Ag2S core-shell nanoparticles synthesis and random network fabrication for neuromorphic device

〇(D)Hadiyawarman Hadiyawarman1、Kawashima Naoaki1、TermehYousefi Amin1、Tanaka Hirofumi1 (1.Kyushu Institute of Technology)

キーワード:Atomic switches, Ag-Ag2S core-shell nanoparticles

Brain-like devices has a high performance arithmetic circuit with very low power consumption. The system mimicking human brain information processing is expected to be applied in many fields. Previously, we successfully collected the nanoparticles located between electrodes by using dielectrophoresis (DEP) method and study its electrical behavior before and after connection occurred as shown in Figure I, indicating the nanoparticles were collected by DEP and metallic bridge was formed after applying certain bias. Furthermore, the electrical properties were also investigated using I-V Sweep measurement of 0-5V with 100 times repetition as shown in Figure II. As can be seen from the figure, electrical conductivity was changed after repeating sweep. In the present study, we demonstrated a new approach to synthesis the Ag-Ag2S core-shell nanoparticles for neuromorphic device application. To fabricate random network, in the first step, 2.08 g of silver acetate in 20 mL Toluene and 10 g of dodecylamine (DDA) was used as starting materials. Then, 2.08 g of phenylhydrazine in 20 mL Toluene was added dropwise to the silver acetate solution with stirring in oil bath at 60oC and 300 rpm for 1 h. The black color solution was obtained during dropwise process, indicating the formation of DDA-capped Ag nanoparticles. The Ag/DDA was then filtered and then the sulfurizing process was performed in wet chemical reaction by utilizing Na2S·9H2O aqueous solution as the source of sulfur ions. The solution was then filtered and centrifugated at 2600 G for 30 min to separate the nanoparticles. Figure III showed the XRD pattern of the effect of reaction time and concentration of Na2S·9H2O. We also tried to fabricate nanoparticles gathering by using DEP and measured its electrical properties. The detail will be presented in the conference.