The combination of printed electronic devices has a pivotal role in establishing intelligent designs in fields such as smart labels for logistics or miniaturized health monitoring. Research to date has tended to focus on individually printed components rather than on their integration. The switching behaviour of inkjet-printed, resistively switching memory cells driven by a screen-printed Zn-MnO₂ microbattery, is investigated. Both components have a shared screen-printed Ag electrode that is printed on a low-cost, flexible, and transparent polyethylenterephthalat (PET) substrate. The rough electrode is covered by inkjet printed Spin-on-Glass and contacted by a second Ag electrode after packaging. This resistive memory cell exhibits non-volatile switching behaviour comparable to cells fabricated with standard semiconductor thin film technology. The battery delivers a high gravimetric capacity of 130 mAh/g. The memory cells exhibt clear resistive switching behaviour with switching voltages of V_set = − 0.15 V, V_reset = 0.1 V and a resistance ratio R_off/R_on ≈ 5 at a write current of I_cc = 0.5 mA. We demonstrate the potential of printed electronics by the printed integration of a memory with mobile power supply by achieving a retention duration of the battery triggered ON state of more than 2.5 h.

印刷电子设备的组合在建立智能设计（例如用于物流或小型健康监控的智能标签）领域中起着关键作用。迄今为止，研究倾向于将重点放在单独打印的组件上，而不是它们的集成上。丝网印刷的Zn-MnO ₂驱动的喷墨印刷电阻切换存储单元的开关行为微型电池，正在研究中。这两个组件都有一个共享的丝网印刷Ag电极，该电极印刷在低成本，柔性且透明的聚对苯二甲酸乙二醇酯（PET）基板上。粗糙电极被喷墨印刷的旋涂玻璃覆盖，并在包装​​后与第二个Ag电极接触。这种电阻存储单元具有与标准半导体薄膜技术制造的单元相当的非易失性开关性能。电池可提供130 mAh / g的高重力容量。存储单元在开关电压V _set  = − 0.15  V，V _reset  = 0.1  V和电阻比R _off / R _{on的情况下}表现出清晰的电阻开关行为 在I _cc  = 0.5  mA的写入电流下≈5。我们通过实现内存与移动电源的印刷集成，展示了电池触发的ON状态的持续时间超过2.5小时，从而展示了印刷电子产品的潜力。