基于纳米印刷技术的双螺旋太赫兹可调超表面

由人工构造超表面所制成的电磁器件能够实现太赫兹频段的滤波、调控、传感、探测等功能,对太赫兹波在通信、成像领域的应用至关重要.基于纳米印刷技术设计制备了一种柔性透明双螺旋超表面,并利用该超表面构建了一款太赫兹旋转可调滤波器,通过旋转超表面实现太赫兹波透射率的有规律调谐.在旋转90°后,0.52 THz处的透射率由8%增至67%,而0.92 THz处的透射率由68%降至3%,实现调制深度大于88%的主动调控.并且,所提出的纳米印刷超表面具有超薄、柔性、可见光透明的优良性质,有利于太赫兹可调器件的小型化、轻量化及大面积制备.     

Electrical and optical properties of Sb-doped ZnO thin films synthesized by sol–gel method

Sb-doped ZnO thin films with different values of Sb content （from 0 to 1.1 at.%） are deposited by the sol-gel dip- coating method under different sol concentrations. The effects of Sb-doping content, sol concentration, and annealing ambient on the structural, optical, and electrical properties of ZnO films are investigated. The results of the X-ray diffraction and ultraviolet-visible spectroscopy （UV-VIS） spectrophotometer indicate that each of all the films retains the wurtzite ZnO structure and possesses a preferred orientation along the c axis, with high transmittance （〉 90%） in the visible range. The Hall effect measurements show that the vacuum annealed thin films synthesized in the sol concentration of 0.75 mol/L each have an adjustable n-type electrical conductivity by varying Sb-doping density, and the photoluminescence （PL） spectra revealed that the defect emission （around 450 nm） is predominant. However, the thin films prepared by the sol with a concentration of 0.25 mol/L, despite their poor conductivity, have priority in ultraviolet emission, and the PL peak position shows first a blue-shift and then a red-shift with the increase of the Sb doping content.     

全印刷碳纳米管薄膜晶体管构建及电性能研究

利用纳米压印和电刷镀技术在PET基体上制作出大面积金源、漏电极阵列。分别采用钛酸钡复合材料为介电层,印刷银电极为顶电极,聚芴-二噻吩基吡咯并吡咯二酮(PF8DPP)分离的半导体碳纳米管为有源层,在柔性基体上构建出全印刷碳纳米管薄膜晶体管器件和反相器。全印刷碳纳米管薄膜晶体管的开关比和迁移率分别达到4×10⁴和6 cm²·V^-1·s^-1,且器件表现出零回滞特性。构建的反相器在V_dd =8 V时,其增益可以达到12。     

喷墨打印和旋涂法制备有机电致发光显示器件中空穴注入及发光层的比较研究

比较了喷墨印刷和旋涂PEDOT:PSS薄膜的表面性能,发现喷涂PEDOT:PSS薄膜上印有发射层油墨后,其表面性能有很大差异。在喷墨打印PEDOT:PSS膜的表面上只发现了大量的和类山状的聚合物颗粒。进一步的研究表明,形态的差异源于润湿性的不同。揭示了喷墨打印和旋涂对膜性能的不同影响,从而在喷墨打印PEDOT:PSS膜上构建了更精细的结构。