Amorphous NbS_(2)was proposed as the resistive switching(RS)layer for conductive-bridge random access memory(CBRAM)for the first time,with Cu and Au as the top and bottom electrodes,respectively.NbS_(2)films were prep...Amorphous NbS_(2)was proposed as the resistive switching(RS)layer for conductive-bridge random access memory(CBRAM)for the first time,with Cu and Au as the top and bottom electrodes,respectively.NbS_(2)films were prepared at room temperature,which exhibited an amorphous structure and did not crystalize even annealed at 500°C,showing good thermal stability.The amorphous NbS_(2)CBRAM devices present stable bipolar non-volatile RS characteristics.Repetitive RS behavior is demonstrated in amorphous NbS_(2)CBRAMs.The operating voltage during all RS cycles is less than 1 V,demonstrating that the NbS_(2)CBRAM is a low-operation voltage memory device.The distribution of the high and low resistive state resistance is relatively concentrated,and the on-off ratio has been kept above 100,offering a sufficient data read/write window.The formation and fracture of the Cu metal conductive filament is considered to be the RS mechanism by analyzing the dependence of current and voltage in logarithmic coordinates.Our study demonstrated that amorphous NbS_(2)is a promising material for lowoperation voltage CBRAM.展开更多
基金supported by“Pioneer”and“Leading Goose”R&D Program of Zhejiang Province(Nos.2021C01SA 301612 and 2023C01235).
文摘Amorphous NbS_(2)was proposed as the resistive switching(RS)layer for conductive-bridge random access memory(CBRAM)for the first time,with Cu and Au as the top and bottom electrodes,respectively.NbS_(2)films were prepared at room temperature,which exhibited an amorphous structure and did not crystalize even annealed at 500°C,showing good thermal stability.The amorphous NbS_(2)CBRAM devices present stable bipolar non-volatile RS characteristics.Repetitive RS behavior is demonstrated in amorphous NbS_(2)CBRAMs.The operating voltage during all RS cycles is less than 1 V,demonstrating that the NbS_(2)CBRAM is a low-operation voltage memory device.The distribution of the high and low resistive state resistance is relatively concentrated,and the on-off ratio has been kept above 100,offering a sufficient data read/write window.The formation and fracture of the Cu metal conductive filament is considered to be the RS mechanism by analyzing the dependence of current and voltage in logarithmic coordinates.Our study demonstrated that amorphous NbS_(2)is a promising material for lowoperation voltage CBRAM.
