A new electrodeposition system, with a thin nickel wire as the anode, was used to deposit the CN x thin film on Si(100) substrate from a dicyandiamide-saturated solution in acetonitrile at a high potential. During the...A new electrodeposition system, with a thin nickel wire as the anode, was used to deposit the CN x thin film on Si(100) substrate from a dicyandiamide-saturated solution in acetonitrile at a high potential. During the experiment, when a certain high potential was applied, spark occurred between the Ni wire anode and the Si(100) substrate. The films were characterized by X-ray photoelectron spectroscopy(XPS), Fourier-transform infrared spectroscopy(FTIR), scaning electron microscopy(SEM) and X-ray diffraction(XRD). It was indicated that multiphase of α-C 3N 4, β-C 3N 4 and g-C 3N 4 was obtained in the films. This work is the first attempt to deposit carbon nitride material through a thin nickel wire anode and might provide a new route for preparing pure crystalline C 3N 4.展开更多
针对多沟道碳纳米晶体管(MC-CNTFET)越来越接近实用化的发展现状,提出了一种多沟道碳纳米晶体管的集成电路仿真SPICE(Simulation program with integrated ciruit emphasis)模型,并基于此模型,对用多沟道碳纳米晶体管构成的环形振荡器...针对多沟道碳纳米晶体管(MC-CNTFET)越来越接近实用化的发展现状,提出了一种多沟道碳纳米晶体管的集成电路仿真SPICE(Simulation program with integrated ciruit emphasis)模型,并基于此模型,对用多沟道碳纳米晶体管构成的环形振荡器进行了分析。结果表明,该模型能够很好地模拟多沟道碳纳米晶体管的电学特性,进一步分析表明,基于50 nm多沟道碳纳米晶体管环形振荡器的振荡频率可达90 GHz,显示出多沟道碳纳米晶体管电路具有很大的性能优势。展开更多
通过对碳纳米场效应晶体管(Carbon Nanotube Field Effect Transistor,CNFET)的研究,提出一种基于CNFET的低功耗三值门电路设计方案.该方案在分析CNFET结构及其不同尺寸的碳纳米管对应于不同阈值电压特性的基础上,以多值逻辑理论为指导...通过对碳纳米场效应晶体管(Carbon Nanotube Field Effect Transistor,CNFET)的研究,提出一种基于CNFET的低功耗三值门电路设计方案.该方案在分析CNFET结构及其不同尺寸的碳纳米管对应于不同阈值电压特性的基础上,以多值逻辑理论为指导,设计基于CNFET的三值反相器、与非门、或非门等单元门电路,最后利用HSPICE对所设计的电路进行仿真.结果表明:所设计电路具有正确的逻辑功能,与传统三值门电路相比,三值CNFET门电路平均传输速度提高52.7%,平均能耗节省54.9%.展开更多
文摘A new electrodeposition system, with a thin nickel wire as the anode, was used to deposit the CN x thin film on Si(100) substrate from a dicyandiamide-saturated solution in acetonitrile at a high potential. During the experiment, when a certain high potential was applied, spark occurred between the Ni wire anode and the Si(100) substrate. The films were characterized by X-ray photoelectron spectroscopy(XPS), Fourier-transform infrared spectroscopy(FTIR), scaning electron microscopy(SEM) and X-ray diffraction(XRD). It was indicated that multiphase of α-C 3N 4, β-C 3N 4 and g-C 3N 4 was obtained in the films. This work is the first attempt to deposit carbon nitride material through a thin nickel wire anode and might provide a new route for preparing pure crystalline C 3N 4.
文摘针对多沟道碳纳米晶体管(MC-CNTFET)越来越接近实用化的发展现状,提出了一种多沟道碳纳米晶体管的集成电路仿真SPICE(Simulation program with integrated ciruit emphasis)模型,并基于此模型,对用多沟道碳纳米晶体管构成的环形振荡器进行了分析。结果表明,该模型能够很好地模拟多沟道碳纳米晶体管的电学特性,进一步分析表明,基于50 nm多沟道碳纳米晶体管环形振荡器的振荡频率可达90 GHz,显示出多沟道碳纳米晶体管电路具有很大的性能优势。
文摘通过对碳纳米场效应晶体管(Carbon Nanotube Field Effect Transistor,CNFET)的研究,提出一种基于CNFET的低功耗三值门电路设计方案.该方案在分析CNFET结构及其不同尺寸的碳纳米管对应于不同阈值电压特性的基础上,以多值逻辑理论为指导,设计基于CNFET的三值反相器、与非门、或非门等单元门电路,最后利用HSPICE对所设计的电路进行仿真.结果表明:所设计电路具有正确的逻辑功能,与传统三值门电路相比,三值CNFET门电路平均传输速度提高52.7%,平均能耗节省54.9%.