CuPc相关论文
半导体技术的不断进步、信息工业的持续发展和人类对计算机性能的无止境需求推动着随机存储器(random access memory, RAM)技术不断......
Thickness Dependent Air-Exposure Induced Phase Transition of CuPc Ultra-Thin Films to Well-Ordered O
Highly ordered organic crystals are important building blocks for future high-performance organic nanodevices.Here we re......
本文以光敏材料酞菁铜(CuPc)和光场增强材料-有机配体金纳米颗粒(AuNPs)的共混层作为阳极缓冲层,研究了缓冲层中掺入金纳米颗粒对有......
The mono-protonated and di-protonated forms of copper phthalocyanine (CuPc) were obtained by increasing concentrations o......
Copper phthalocyanine (CuPc) nanoribbon field-effect transistors were implemented as chemical sensors. They showed fast ......
以3-(环己氧基)-邻苯二腈和氯化铜为原料,通过钼酸铵固相法合成了一种烷氧基取代的铜酞菁配合物α-四(环己氧基)铜酞菁(CuPc),采用......
实验中制备了一种F16CuPc掺杂NPB薄膜,它作为宅穴注入层相校于单纯的NPB薄膜对有机电致发光器件性能有所改善。例如,在2000 cd/m2......
本文以Be(PP)2为发光层、水溶性酞菁铜(WS-CuPc)为空穴注入层、NPB为空穴传输层,制备了结构为ITO/WS-CuPc/NPB/Be(PP)2/LiF/Al的蓝......
以酞菁铜为有源层,二氧化硅为绝缘层,钛/金作为电极,制作了沟道宽长比为6 000/10的有机薄膜晶体管。通过比较在不同时期器件在空气......
本文制备的晶体管以铜(Cu)作为源极和漏极,铝(Al)作为栅极,有机半导体材料酞菁铜、酞菁铅作为传输层。金属电极均通过磁控溅射沉积......
报道Cupc/InP异质结的整流(J-V)特性和电容电压(C-V)特性,并研究了界面态对CuPcLB膜Raman光谱的影响。
The J-V characteristics and C-V characteristics of Cup......
本文首次报导了CuPc/InP、H2Pc/InP(O/I)异质结的整流(J-V)特性和电容电压(C-V)特性,并研究了O/I界面态对CuPtLB膜Raman光谱的影响,这种影响导致了CuPcLB膜分子产生了新的正则振动模.
The ......
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,Surface-type nonvolatile electric memory elements based on organic-on-organic CuPc-H2 Pc heterojunc
A novel surface-type nonvolatile electric memory elements based on organic semiconductors CuPc and H2Pc are fabricated b......
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该文从挂篮荷载计算、施工流程、支座及临时固结施工、挂篮安装及试验、合拢段施工、模板制作安装、钢筋安装、混凝土的浇筑及养生......
A hetero-junction of n-silicon(n-Si) and copper phthalocyanine(CuPc) has been fabricated.The current -voltage characteri......
The optoelectronic properties of heterojunction thin film devices with ITO/CuPc/C_(60)/Al structure have been investigat......
This paper reports the experimental results for the humidity dependent properties of an organic field effect transistor.......
Copper Phthalocyanine Catalysis to Oxidation of Adrenaline by Oxygen and Its Application in Adrenali
The oxidation of adrenaline by dioxygen using copper phthalocyanine (CuPc) as the catalyzer was studied. CuPc has the op......
本文通过对荣华二采区10...
Copper Phthalocyanine Catalysis to Oxidation of Adrenaline by Oxygen and Its Application in Adrenali
The oxidation of adrenaline by dioxygen using copper phthalocyanine (CuPc) as the catalyzer was studied. CuPc has the op......
Copper phthalocyanine was selected as the photosensitizer to sensitize TiO2 in this experiment with furfural as the targ......
利用旋涂方法在声表面波(SAW)器件的延迟通道上制备了酞菁铜(CuPC)掺杂的聚乙烯吡咯烷酮(PVP)敏感薄膜,并对制备的薄膜用四探针法和扫描电......
采用MEMS技术制作了硅基微型NO2气体传感器,选用高分子金属酞菁聚合物酞菁铜作为敏感膜,从半导体理论出发解释了酞菁铜的敏感机理。......
有机薄膜晶体管以其成本低、柔性好、易加工等优点越来越受到人们的青睐,目前已广泛应用于低端器件.为了获得更实际的应用,OTFTs的......
用十八烷基三氯硅烷(OTS)修饰了不同厚度的酞菁铜(CuPc)有机薄膜晶体管器件,对比酞菁铜厚度为15、40、80nm的3种器件性能后,得到40nm的酞......
Copper Phthalocyanine Catalysis to Oxidation of Adrenaline by Oxygen and Its Application in Adrenali
The oxidation of adrenaline by dioxygen using copper phthalocyanine (CuPc) as the catalyzer was studied. CuPc has the op......
通过对料浆法合成铜酞菁(CuPc)的一系列研究,证明了料浆法解决了传统生产CuPc的溶剂法和固相法长期存在的一些问题,使CuPc的制备可......
制备以酞菁铜CuPc为空穴传输层,有机染料-二氢吲哚D102(C37H30N2O3S2)为敏化染料的染料敏化异质结电池DSH(Dye-sensitized heterojunc......
制备了顶接触的薄膜晶体管,实验中采用二氧化硅作为绝缘层,然后再依次真空蒸镀酞菁铜(CuPc)作为晶体管器件的有源层,金作为源漏电极......
在AAO(阳极氧化铝)模板上的定向纳米碳管表面制备了有机和无机膜.一种是采用真空蒸镀的方法沉积酞菁铜(CuPc)有机膜,另一种是用电......
在AAO(阳极氧化铝)模板上的定向纳米碳管表面制备了有机和无机膜.一种是采用真空蒸镀的方法沉积酞菁铜(CuPc)有机膜,另一种是用电......
采用旁热式烧结工艺制成了酞菁铜NO2气敏元件.该元件的灵敏度比较高,在低浓度范围内线性较好,可检测浓度为5ppm的NO2;响应速度快(小......
以DPVBi为发光层,NPB为空穴传输层,在阳极ITO和NPB之间分别插入不同的空穴注入层CuPc和PEDOT∶PSS,制备了两种结构的蓝色有机电致......
以DPVBi为发光层,NPB为空穴传输层,在阳极ITO和NPB之间分别插入不同的空穴注入层CuPc和PEDOT∶PSS,制备了两种结构的蓝色有机电致......
用微电泳法测定了酞菁铜、酞菁镍、酞菁锌在10^-4mol/L KCl水溶液中的等电点,并将其与用理论估算而得的相应氢氧化物的等电点进行了......
文章按文献所述方法制备酞菁铜粉体,制备了酞菁铜膜电极,用循环伏安法研究了它的电化学性质.在0.1mol/L KCl+0.01 mol/L[(Fe(CN)6]......
采用旋涂和真空蒸发沉积工艺制备了结构分别为ITO/PVK:TPD/Alq3/Al和ITO/PVK:TPD/LiBq4/Alq3/Al的绿色和蓝色有机电致发光器件(OLED),并研究......
采用旋涂和真空蒸发沉积工艺制备了结构分别为ITO/PVK:TPD/Alq3/Al和ITO/PVK:TPD/LiBq4/Alq3/Al的绿色和蓝色有机电致发光器件(OLED),并研究......
为研究衬底温度对酞菁铜(CuPc)薄膜的结构、光学及光电导性能的影响,文中采用真空热蒸发方法制备了不同衬底温度的CuPc薄膜.X射线......
以喹啉为溶剂,在反应釜中将1,3-二异吲哚、钼酸铵和二水乙酸铜在喹啉中反应,降至室温后得到长10.5mm针状的酞菁铜单晶,最佳的反应条件:以......
Organic photovoltaic cells have been fabricated using copper phthalocyanine CuPc as electron donor and C60 or PCBM as el......
Organic photovoltaic cells have been fabricated using copper phthalocyanine CuPc as electron donor and C60 or PCBM as el......
本文以4-硝基邻苯二腈和对甲基苯酚为苯环源物质合成酞菁铜(CuPc),以苯胺为聚苯胺(PANT)源物质,并通过掺杂高氯酸(硫酸或硝酸)与CuPc聚合......
超细颜料染色工艺简单、污染小、成本低,日益受到人们的重视。阴离子表面活性剂十二烷基硫酸钠(SDS)能够显著降低水的表面张力,被广......
以苯酐及尿素为主要原料,固相熔融制备CuPc。在饱和CuPc磷酸溶液中,改变铜粉加入量及蒸馏水或以不同浓度的十二烷基苯磺酸钠溶液代替......
以苯酐及尿素为主要原料,固相熔融制备CuPc。在饱和CuPc磷酸溶液中,改变铜粉加入量及蒸馏水或以不同浓度的十二烷基苯磺酸钠溶液代替......