共查询到17条相似文献,搜索用时 156 毫秒
1.
采用高温热解法,分别以氯化铵(NH4Cl)和乙二胺(C2H8N2)为氮源在洁净的硅片上沉积生长CNx纳米管薄膜.利用扫描电子显微镜、高分辨率透射电子显微镜和拉曼光谱对CNx纳米管进行形貌观察和表征.结果显示不同氮源制备出的CNx纳米管薄膜的洁净度、有序度以及纳米管的结构明显不同.热解乙二胺(C2H8N2)/二茂铁(C10H10Fe)制备出的结晶度较低的"竹节状"结构CNx纳米管平行基底表面有序生长,而且低场致电子发射性能优越,开启电场1.0V/μm,外加电场达到2.89V/μm时发射电流密度为860μA/cm2. 相似文献
2.
采用高温热解法,以乙二胺为前驱液,在沉积有铁催化剂的p型硅(111)基底上制备出了定向生长的CNx纳米管.利用扫描电子显微镜、高分辨率透射电子显微镜和拉曼光谱对CNx纳米管进行了形貌观察和表征.CNx纳米管的高度在20?μm左右,直径在50—100nm之间,具有明显的“竹节状”结构,结晶有序度较差.对CNx纳米管薄膜进行低场致发射性能测试:外加电场为1.4V/μm,观察到20?μA /cm2发射电流,外电场升至2.54V/μm时发射电流达到1.280mA/cm2,在较高外电场下,没有发现电流“饱和”.这比
关键词:
CNx纳米管
高温热解
“竹节状”结构
场致发射 相似文献
3.
利用电化学方法在室温下成功地沉积了类金刚石(DLC)薄膜和非晶CNx薄膜,并 对制备条件进行了讨论.通过扫描电子显微镜、傅里叶变换红外光谱技术,分析了薄膜的表面形貌和化学结合状态.场发射测量结果表明:DLC膜和非晶CNx的开启场分别为88和 10V/μm;并且在23V/μm的电场下,DLC膜和非晶CNx膜的发射电流密度分别达到10 和037mA/cm2.
关键词:
电化学沉积
类金刚石薄膜
x薄膜')" href="#">CNx薄膜
场致电子发射 相似文献
4.
采用高温热解法 ,以乙二胺为前驱液 ,在沉积有铁催化剂的p型硅 (1 1 1 )基底上制备出了定向生长的CNx 纳米管 .利用扫描电子显微镜、高分辨率透射电子显微镜和拉曼光谱对CNx 纳米管进行了形貌观察和表征 .CNx 纳米管的高度在 2 0 μm左右 ,直径在 5 0— 1 0 0nm之间 ,具有明显的“竹节状”结构 ,结晶有序度较差 .对CNx 纳米管薄膜进行低场致发射性能测试 :外加电场为 1 4V μm ,观察到 2 0 μA cm2 发射电流 ,外电场升至 2 5 4V μm时发射电流达到1 2 80mA cm2 ,在较高外电场下 ,没有发现电流“饱和” .这比相同实验条件下改变前驱液制备出的碳纳米管和硼碳氮纳米管的场发射性能优越 .还在“竹节状”结构的基础上对CNx 纳米管的场致电子发射机理进行了讨论 相似文献
5.
利用微波等离子体增强化学气相沉积技术制备出了CNx薄膜,并利用x射线光电子能谱、x射线衍射、扫描电子显微镜和Raman光谱等测试手段对所制备的CNx薄膜的微结构和成分进行了分析.研究了其场致电子发射特性.发现薄膜的结构和场发射特性与反应系中的甲烷、氮气及氢气的流量比有关,当甲烷、氢气及氮气流量比为8/50/50 sccm时,制备的薄膜具有弯曲层状的纳米石墨晶体结构(类富勒烯结构)和很好的场发射特性.场发射阈值电场降低至1.1V/μm.当电场为5.9V/μm时,平
关键词:
类富勒烯
x薄膜')" href="#">CNx薄膜
场致电子发射
微波等离子体增强化学气相沉积 相似文献
6.
利用反应磁控溅射方法在单晶硅和高速钢(W18Cr4V)基片上制备出不同C含量Ti-B-C-N纳米复合薄膜. 使用X射线衍射和高分辨透射电子显微镜研究了Ti-B-C-N纳米复合薄膜的组织和微观结构,用纳米压痕仪测试了它们的硬度和弹性模量. 结果表明,利用往真空室通入C2H2气体的方法制备得到的Ti-B-C-N纳米复合薄膜中,在所研究成分范围内只发现TiN基的纳米晶. 当C2H2流量较小时,C元素的加入可以促进Ti-B-C
关键词:
Ti-B-C-N薄膜
磁控溅射
微观结构
力学性能 相似文献
7.
利用微波等离子体化学气相沉积方法,以甲烷、氢混合气体为反应气体,具有钛镀层的玻璃作为衬底,制备了具有sp1杂化结构的白碳纳米晶薄膜。利用X射线衍射、俄歇电子能谱,以及扫描电子显微镜对薄膜结构进行了表征。以白碳纳米晶薄膜为阴极,以镀有ITO透明导电薄膜玻璃为阳极,采用二极管结构,测试了白碳纳米晶薄膜的场致电子发射特性。开启电场为2.5 V/μm,在电场为5 V/μm时的电流密度为200μA/cm2。对白碳纳米晶薄膜生长机理,以及其场致电子发射机制进行了讨论。 相似文献
8.
采用射频磁控溅射方法在纯N2气氛中沉积了非晶CNx薄膜样品,并 在真空中退火至900 ℃.对高温退火引起的CNx薄膜化学成分、键合结构及其场发射特性方面的变 化进行研究.用傅里叶变换红外光谱和x射线光电子能谱分析样品的内部成分及键合结构的变化,其中sp2键及薄膜中N的含量与薄膜的场发射特性密切相关.退火实验的结果表明 高温退火可以导致CNx薄膜中N含量大量损失,并在薄膜中形成大量sp2<
关键词:
x薄膜')" href="#">CNx薄膜
化学键合
退火温度
场致电子发射 相似文献
9.
报道了Ni(C3H10N2)2NO2(ClO4)晶体在T=1.5K温度和W波段的ESR实验.建立了d8离子基态3A2(F)的零场分裂参量D,E,和g因子与斜方对称晶场势参量间的关系,并应用于Ni(C3H10N2)2NO2(ClO4)晶体.计算值与实验数据符合很好,表明所给关系式是合理的. 相似文献
10.
11.
Pei Ding Erjun Liang Mingju Chao Xinyong Guo Jingwei Zhang 《Physica E: Low-dimensional Systems and Nanostructures》2005,25(4):654-659
Aligned CNx nanotubes were fabricated by pyrolyzing ethylenediamine on p-type Si(1 1 1) substrates using iron as the catalyst. Scanning electron microscopy (SEM), high-resolution transmission electron microscopy (HRTEM), X-ray photoelectron spectrum (XPS) and Raman spectroscopy were used to characterize the CNx nanotubes. The CNx nanotubes with the average length of 20 μm and diameters in the range of 50–100 nm have the “bamboo-like” structure and worse crystalline order. The low-field emission measurements of the CNx nanotubes indicated that 20 μA/cm2 current densities were observed at an electric field of 1.4 V/μm and 1.280 mA/cm2 were obtained at 2.54 V/μm. The CNx nanotubes exhibit better field emission properties than the carbon nanotubes and the BCN nanotubes. The emission mechanism of CNx nanotubes is also discussed. 相似文献
12.
采用高温热解法在860℃分别制备出了碳、碳氮和硼碳氮纳米管,提纯后利用丝网印刷工艺分别将它们制备成薄膜,并测试了它们的场发射性能.结果表明:碳纳米管、碳氮纳米管和硼碳氮纳米管薄膜的开启电场分别为2.22,1.1和4.4V/μm,当电场增加到5.7V/μm时,它们的电流密度分别达到1400,3000μA/cm2和小于50μA/cm2.碳和碳氮纳米管薄膜的场增强因子分别为10062和11521.可见,碳氮纳米管的场发射性能优于碳纳米管,而硼碳氮纳米管的场发射性能比前两者要差.解释了这三种纳米管场发射性能差别的原因.
关键词:
碳纳米管
碳氮纳米管
硼碳氮纳米管
场发射 相似文献
13.
Pradip Ghosh M. Subramanian M. Zamri T. Jimbo M. Tanemura 《Applied Surface Science》2009,255(8):4611-4615
Nitrogen-doped Y-junction bamboo-shaped carbon nanotubes were synthesized by chemical vapor deposition of monoethanolamine/ferrocene mixture on GaAs substrate at 950 °C. The use of monoethanolamine as the C/N feedstock simplifies the experimental arrangement by producing ammonia during the growth process. The structure, morphology and graphitization of as-grown nitrogen-doped carbon nanotubes (CNx) were examined by scanning electron microscopy (SEM), transmission electron microscopy (TEM) and Raman spectroscopy analysis. TEM analysis indicates that nanotubes have a bamboo-like structure. The nitrogen concentration on as-grown CNx nanotube was found to be 7.8 at.% by X-ray photoelectron spectroscopy (XPS) analysis. XPS analysis also indicated that there are two different types of nitrogen atoms (pyridinic and graphitic) in these materials. The possible growth mechanism of formation of Y-junction CNx nanotubes was briefly discussed. Field emission measurement suggested that as-grown CNx nanotubes are excellent emitters with turn-on and threshold fields of 1.6 and 2.63 V/μm, respectively. The result indicated that monoethanolamine proves to be an advantageous precursor to synthesize Y-junction nitrogen-doped carbon nanotubes and such nanotubes might be an effective material to fabricate various field emission devices. 相似文献
14.
D. Golberg P.S. Dorozhkin Y. Bando Z.-C. Dong C.C. Tang Y. Uemura N. Grobert M. Reyes-Reyes H. Terrones M. Terrones 《Applied Physics A: Materials Science & Processing》2003,76(4):499-507
Transport and field-emission properties of as-synthesized CNx and BNCx (x<0.1) multi-walled nanotubes were compared in detail. Individual ropes made of these nanotubes and macrofilms of those
were tested. Before measurements, the nanotubes were thoroughly characterized using high-resolution and energy-filtered electron
microscopy, electron diffraction and electron-energy-loss spectroscopy. Individual ropes composed of dozens of CNx nanotubes displayed well-defined metallic behavior and low resistivities of ∼10–100 kΩ or less at room temperature, whereas
those made of BNCx nanotubes exhibited semiconducting properties and high resistivities of ∼50–300 MΩ. Both types of ropes revealed good field-emission
properties with emitting currents per rope reaching ∼4 μA(CNx) and ∼2 μA (BNCx), albeit the latter ropes se- verely deteriorated during the field emission. Macrofilms made of randomly oriented CNx or BNCx nanotubes displayed low and similar turn-on fields of ∼2–3 V/μm. 3 mA/cm2 (BNCx) and 5.5 mA/cm2 (CNx) current densities were reached at 5.5 V/μm macroscopic fields. At a current density of 0.2–0.4 mA/cm2 both types of compound nanotubes exhibited equally good emission stability over tens of minutes; by contrast, on increasing
the current density to 0.2–0.4 A/cm2, only CNx films continued to emit steadily, while the field emission from BNCx nanotube films was prone to fast degradation within several tens of seconds, likely due to arcing and/or resistive heating.
Received: 29 October 2002 / Accepted: 1 November 2002 / Published online: 10 March 2003
RID="*"
ID="*"Corresponding author. Fax: +81-298/51-6280, E-mail: golberg.dmitri@nims.go.jp 相似文献
15.
HfNxOy thin films were deposited on Si substrates by direct current sputtering at room temperature. The samples were characterized by scanning electron microscopy (SEM), atomic force microscopy (AFM) and X-ray diffraction (XRD). SEM indicates that the film is composed of nanoparticles. AFM indicates that there are no sharp protrusions on the surface of the film. XRD pattern shows that the films are amorphous. The field electron emission properties of the film were also characterized. The turn-on electric field is about 14 V/μm at the current density of 10 μA/cm2, and at the electric field of 24 V/μm, the current density is up to 1 mA/cm2. The field electron emission mechanism of the HfNxOy thin film is also discussed. 相似文献
16.
Carbon nanotubes(CNTs)were grown into anodic aluminum oxide(AAO)channels by chemical vapor deposition(CVD)using C2H2/N2mixtures as feeding gas,which can be used as field emitters.The bottom surface of AAO template was etched slightly and the tips of CNTs were explored as the field emission arrays which were uniform and vertical.Field emission characterization showed a low turn-on field about 3.25 V/m and high emission current about 30 mA/cm2with the electric field about 4 V/m.These superior field emission characteristics could be attributed to low density of vertical CNTs and higher conductivity of the substrate. 相似文献
17.
A. V. Okotrub L. G. Bulusheva A. G. Kudashov V. V. Belavin D. V. Vyalikh S. L. Molodtsov 《Applied Physics A: Materials Science & Processing》2009,94(3):437-443
Arrays of vertically aligned nitrogen-doped carbon (CN
x
) nanotubes have been synthesized by decomposition of aerosol mixture of acetonitrile and ferrocene at 850°C. Nitrogen concentration
in the outer shells of the CN
x
nanotubes was found from X-ray photoelectron spectroscopy (XPS) data to reach ∼6%. The XPS N 1s spectra and N 1s near-edge X-ray absorption fine structure (NEXAFS) spectra identified three chemical forms of nitrogen in the CN
x
nanotube arrays: pyridine-like, graphitic, and molecular nitrogen. The π
* resonance of molecular nitrogen showed clear polarization dependence that indicates predominant orientation of N2 molecules along the nanotubes axis. The estimated range of the polar angle distribution of the N2 molecules orientation in the CN
x
nanotube array amounts to 15°. 相似文献