Copper nanowires/cellulose degradable flexible transparent conductor are processed at room temperature (RT) and systematically studied. The achieved copper nanowires/cellulose sample can have a sheet resistance of 9.4 Ω/sq and transmittance of 78%, comparable to the commercial ITO/PET, better than copper nanowires/PET. This RT sheet resistance is very stable before and after bending. Compared to copper nanowires/PET curled and invalid at 150 °C, copper nanowires/cellulose can bake 250 °C and the according sheet resistance becomes 12.2 Ω/sq, showing the an outstanding heat stability. Moreover, the cellulose could be applied as dielectric layer and Cu nanowires were acted as back electrodes in the MoS₂ field effect transistors (FETs) with a field effect mobility of 52.44cm²v⁻¹s⁻¹, extremely promising for a practical application in electronic devices.

铜纳米线/纤维素可降解柔性透明导体在室温（RT）下加工并进行了系统研究。所获得的铜纳米线/纤维素样品的薄层电阻为9.4Ω/ sq，透射率为78％，与商业ITO / PET相当，优于铜纳米线/ PET。RT薄层电阻在弯曲前后非常稳定。与卷曲且在150°C下无效的铜纳米线/ PET相比，铜纳米线/纤维素可以烘烤250°C，相应的薄层电阻为12.2Ω/ sq，显示出出色的热稳定性。此外，纤维素可以用作电介质层，Cu纳米线可以用作MoS ₂场效应晶体管（FET）中的背电极，场效应迁移率为52.44cm ² v^-1 s ^-1，对于电子设备的实际应用极为有前途。