Abouali Maryam, Rondelli Federico, Genitoni Matteo, Murgia Mauro, Di Lauro Michele, Fadiga Luciano, Biscarini Fabio
Center for Translational Neurophysiology of Speech and Communication, Fondazione Istituto Italiano di Tecnologia (IIT-CTNSC), via Fossato di Mortara 17/19, Ferrara, 44121, Italy.
Sezione di Fisiologia, Dipartimento di Neuroscienze e Riabilitazione, Università di Ferrara, via Fossato di Mortara 17/19, Ferrara, 44121, Italy.
Small. 2025 Jul;21(27):e2502768. doi: 10.1002/smll.202502768. Epub 2025 May 16.
Ambipolar transistors, capable of conducting both electrons and holes, enable the simplification of circuit design by reducing the number of constituting units in circuits and opening new possibilities for low-power electronics, reconfigurable logic circuits, and memory devices. 2D ambipolar semiconductors as graphene and its derivatives, are particularly advantageous in bioelectronics, for their high sensitivity in label-free sensors and their biocompatibility. Here, a novel method for fabricating electrolyte-gated transistors based on reduced graphene oxide (rGO-EGTs) is proposed, which enables precise control over the thickness of deposited rGO. Such rGO-EGTs act as a neuromorphic unit that exhibits tailorable long-term plasticity when driven with pulsed voltage. By applying different numbers of voltage pulses and acting on their amplitudes, it is possible to program multilevel memory with retention timescales over tens of minutes and 6.60 µS writing resolution. This long-term plasticity makes our rGO-EGT promising for nonvolatile memory, computing, and plasticity-based signal pattern recognition.
双极晶体管能够传导电子和空穴,通过减少电路中的构成单元数量,为低功耗电子学、可重构逻辑电路和存储设备开辟了新的可能性,从而简化了电路设计。二维双极半导体,如石墨烯及其衍生物,在生物电子学中具有特别的优势,因为它们在无标记传感器中具有高灵敏度且具有生物相容性。在此,提出了一种基于还原氧化石墨烯的电解质门控晶体管(rGO-EGT)的制造新方法,该方法能够精确控制沉积的rGO的厚度。这种rGO-EGT作为一个神经形态单元,在脉冲电压驱动下表现出可定制的长期可塑性。通过施加不同数量的电压脉冲并作用于其幅度,可以对多级存储器进行编程,其保留时间尺度超过数十分钟,写入分辨率为6.60微秒。这种长期可塑性使我们的rGO-EGT在非易失性存储器、计算和基于可塑性的信号模式识别方面具有潜力。
