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![c-AFM and in operando TERS & µRaman Characterization of Molecular Switching in Organic Memristors thumbnail](http://static.horiba.com/fileadmin/Horiba/_processed_/2/1/csm_AFM-19-Characterization-of-Molecular-Switching-in-Organic-Memristors_9b3bc14fd6.png)
Emergence of organic memristors has been hindered by poor reproducibility, endurance stability scalability and low switching speed. Knowing the primary driving mechanism at the molecular scale will be the key to improve the robustness and reliability of such organic based devices.
对于人工智能 (AI) 和物联网 (IoT) 的下一代电子产品来说,记忆元件被认为是最有前途的组件之一。现有记忆元件的最大问题之一是其开关不均匀(纤维)和随机性,这导致它们缺乏可重复性和D2D的一致性。本应用案例报道了运用C-AFM测量电导,并用动态TERS进行化学表征演示了基于偶氮芳香配体钌络合物忆阻器中100%均一的分子开关机制。
纳米拉曼光谱仪
纳米拉曼光谱仪
AFM光学工作站
纳米拉曼光谱仪
多光路耦合纳米拉曼光谱仪
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