Uniform arrays of carbon nanotubes applied in the field emission devices 被引量：8

Uniform arrays of carbon nanotubes applied in the field emission devices

导出

摘要 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. 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.

作者 LI DeTian CHENG YongJun CAI Min YAO JinLi CHANG Peng

机构地区 Lanzhou Institute of Physics Key Laboratory for Magnetism and Magnetic Materials of MOE

出处《Science China(Physics,Mechanics & Astronomy)》 SCIE EI CAS 2013年第11期2081-2084,共4页 中国科学：物理学、力学、天文学（英文版）

基金 supported by China National Funds for Distinguished Young Scientists(Grant No.61125101) the Science and Technology on Vacuum&Cryogenics Technology and Physics Laboratory

关键词场致发射阵列碳纳米管发射装置均匀 AAO模板场发射特性化学气相沉积开启电场 carbon nanotubes anodic aluminum oxide template field emission

分类号 TB383.1 [一般工业技术—材料科学与工程]

引文网络
相关文献

参考文献2

1HOU PengXiang,LIU Chang,SHI Chao,CHENG HuiMing.Carbon nanotubes prepared by anodic aluminum oxide template method[J].Chinese Science Bulletin,2012,57(2):187-204. 被引量：7
2LI DeTian,CHENG YongJun,CAI Min,YAO JinLi,CHANG Peng.Uniform arrays of carbon nanotubes applied in the field emission devices[J].Science China(Physics,Mechanics & Astronomy),2013,56(11):2081-2084. 被引量：8

二级参考文献149

1Abbaslou R M M, Tavasoli A, Dalai A K. Effect of pre-treatment on physico-chemical properites and stability of carbon nanotubes supported iron fischer-tropsch catalysts. Appl Catal A-Gen, 2009, 335: 33-41.
2Tavasoli A, Abbaslou R M M, Trepanier M, et al. Fischer-tropsch synthesis over cobalt catalyst supported on carbon nanotubes in a slurry reactor. Appl Catal A-Gen, 2008, 345:134-142.
3Chen W, Pan X L, Bao X H. Tuning of redox properties of iron and iron oxides via encapsulation within carbon nanotubes. J Am Chem Soc, 2007, 129:7421-7426.
4Zhang H B, Pan X L, Liu J Y, et al. Enhanced catalytic activity of sub-nanometer titania clusters confined inside double-wall carbon nanotubes. ChemSusChem, 2011, 4:975-980.
5Bahome M C, Jewell L L, Padayachy K D, et al. Fe-Ru small particle bimetallic catalysts supported on carbon nanotubes for use in fischer-Tropsch synthesis. Appl Catal A-Gen, 2007, 328:243-251.
6Ma W, Kugler E L, Wright J, et al. Mo-Fe catalysts supported on activated carbon for synthesis of liquid fuels by the Fischer-Tropsch process: Effect of Mo addition on reducibility, activity, and hydrocarbon selectivity. Energy Fuels, 2006, 20:2299-2307.
7Serp P, Corrias M, Kalck P. Carbon nanotubes and nanofibers in catalysis. Appl Catal A-Gen, 2003, 253:337-358.
8Meng C Z, Liu C H, Chen L Z, et al. Highly flexible and all-solid- state paper like polymer supercapacitors. Nano Lett, 2010, 10: 4205- 4031.
9Izadi-Najafabadi A, Yasuda S, Kobashi K, et al. Extracting the full potential of single-walled carbon nanotubes as durable supercapacitor electrodes operable at 4 V with high power and energy density. Adv Mater, 2010, 22:E235-E241.
10Serp P, Castillejos E. Catalysis in carbon nanotubes. ChemCatChem, 2010, 2:41-47.

共引文献13

1XIE SiShen Academician of Chinese Academy of Sciences Institute of Physics,Chinese Academy of Sciences,Beijing 100190,China.Preface[J].Chinese Science Bulletin,2012,57(2):133-134. 被引量：2
2张强,黄佳琦,赵梦强,骞伟中,魏飞.碳纳米管的宏量制备及产业化[J].中国科学：化学,2013,43(6):641-666. 被引量：22
3杨震,张璋,黄康荣,周青伟,刘利伟.超薄AAO模板法辅助生长高密度有序金纳米点阵列[J].华南师范大学学报（自然科学版）,2013,45(5):51-54. 被引量：1
4李菁桢,常鹏.碳纳米管电子源制备及真空测量中的应用研究[J].真空与低温,2014,20(2):77-82. 被引量：2
5赵海燕,魏晓伟,羊凡,黄玲,罗婷.铝合金低硫酸浓度硬质阳极氧化膜生长及特性[J].表面技术,2014,43(3):43-47. 被引量：6
6WANG GenWei.碳纳米管的径向变形与黏附（英文）[J].Science China(Physics,Mechanics & Astronomy),2014,57(8):1569-1573.
7李得天,王永军,成永军,张虎忠,王迪.新型碳纳米管阴极电离规的研究进展[J].真空,2014,51(4):26-30. 被引量：4
8苏勋文,JIANG Fang.CVD Method for Carbon Nanotubes Preparation Based on Orthogonal Experiment Using C_3H_6[J].Journal of Wuhan University of Technology(Materials Science),2015,30(5):959-964.
9周天国,徐瑞,张瑜,陈田田,张贺.低电压下多孔阳极氧化铝膜的制备[J].热加工工艺,2018,47(2):188-190.
10刘腾飞,杨代凤,毛健,章雪明,虞锐鹏.碳纳米管材料在食品安全分析中的应用[J].化工进展,2018,37(10):3699-3725. 被引量：16

同被引文献207

1徐婕,李得天,郭美如,赵光平.静态膨胀法真空标准容积比测量及不确定度评定[J].真空与低温,2008,14(3):145-148. 被引量：6
2李正海.真空规原位置校准装置[J].真空与低温,2008,14(4):231-235. 被引量：2
3杜永刚,杨震春,付朝晖,纪明,李昊璘.月球样品自动封装技术的可行性探讨[J].航天器环境工程,2010,27(5):566-569. 被引量：13
4杨晓天,蒙峻,张军辉,张喜平,衡昌胜,张新俊,侯生军,胡振军,郝斌干,吴慧敏.不锈钢材料在真空炉高温除气后的出气性能比较[J].真空,2004,41(3):24-26. 被引量：15
5张涤新,李得天,黄良甫.我国国防真空计量发展概况及成就[J].真空,2004,41(4):33-39. 被引量：6
6张涤新,冯焱,成永军,赵定众,李得天,李正海.动态流导法真空校准装置的性能测试[J].真空与低温,2004,10(3):144-147. 被引量：3
7王明旭,李波,杨志刚,严龙文,张年满,廖志清,严东海,郭建军.HL-2A装置偏滤器室中性气体压强规[J].核聚变与等离子体物理,2005,25(1):65-68. 被引量：4
8王金锁,许红,胡央丽,唐景远.正压漏孔校准装置的研制[J].真空科学与技术学报,2004,24(6):439-441. 被引量：9
9张涤新,郭美如,冯焱,赵澜,李得天,赵定众,李正海,成永军,李莉,龚月莉,孙海.定容式流导法微流量校准装置[J].真空科学与技术学报,2005,25(1):21-25. 被引量：13
10张涤新,李得天,冯焱,成永军,赵定众,李正海,郭美如,赵澜,李莉,龚月莉,孙海.动态流导法真空校准装置[J].真空,2005,42(3):30-34. 被引量：13

引证文献8

1LI DeTian,CHENG YongJun,CAI Min,YAO JinLi,CHANG Peng.Uniform arrays of carbon nanotubes applied in the field emission devices[J].Science China(Physics,Mechanics & Astronomy),2013,56(11):2081-2084. 被引量：8
2李菁桢,常鹏.碳纳米管电子源制备及真空测量中的应用研究[J].真空与低温,2014,20(2):77-82. 被引量：2
3WANG GenWei.碳纳米管的径向变形与黏附（英文）[J].Science China(Physics,Mechanics & Astronomy),2014,57(8):1569-1573.
4李得天,王永军,成永军,张虎忠,王迪.新型碳纳米管阴极电离规的研究进展[J].真空,2014,51(4):26-30. 被引量：4
5刘腾飞,杨代凤,毛健,章雪明,虞锐鹏.碳纳米管材料在食品安全分析中的应用[J].化工进展,2018,37(10):3699-3725. 被引量：16
6李得天.中国真空计量2004-2019年发展概况及趋势分析[J].真空与低温,2020,26(1):1-16. 被引量：9
7李得天,习振华,王永军,成永军,郭宁,王鹢,秦晓刚,张虎忠,李刚,赵呈选.真空测试计量技术及其航天应用[J].真空科学与技术学报,2021,41(9):795-816. 被引量：7
8Detian Li,Yongjun Wang,Huzhong Zhang,Zhenhua Xi,Gang Li.Applications of Vacuum Measurement Technology in China’s Space Programs[J].Space(Science & Technology),2021(1):285-298. 被引量：4

二级引证文献45

1王永军,赵呈选,李得天,王鹢,张海燕,李存惠,庄建宏,张虎忠.空间尘埃探测进展与发展建议[J].前瞻科技,2022(1):38-50. 被引量：1
2LI DeTian,CHENG YongJun,CAI Min,YAO JinLi,CHANG Peng.Uniform arrays of carbon nanotubes applied in the field emission devices[J].Science China(Physics,Mechanics & Astronomy),2013,56(11):2081-2084. 被引量：8
3李菁桢,常鹏.碳纳米管电子源制备及真空测量中的应用研究[J].真空与低温,2014,20(2):77-82. 被引量：2
4WANG GenWei.碳纳米管的径向变形与黏附（英文）[J].Science China(Physics,Mechanics & Astronomy),2014,57(8):1569-1573.
5李得天,王永军,成永军,张虎忠,王迪.新型碳纳米管阴极电离规的研究进展[J].真空,2014,51(4):26-30. 被引量：4
6张虎忠,成永军,王永军,孙健,习振华,李得天.碳纳米管阴极电离真空计研制及其性能研究[J].真空与低温,2017,23(4):212-216. 被引量：6
7刘腾飞,杨代凤,毛健,章雪明,虞锐鹏.碳纳米管材料在食品安全分析中的应用[J].化工进展,2018,37(10):3699-3725. 被引量：16
8赵昌平,杨叶琴,朱强,刘腾飞.碳纳米管在食品农药多残留测定中的应用[J].食品安全质量检测学报,2019,10(13):4382-4387. 被引量：4
9刘腾飞,杨代凤,范君,毛健,孙灵湘,董明辉.羧基化多壁碳纳米管净化-气相色谱/质谱联用技术测定土壤中18种多氯联苯[J].分析科学学报,2019,35(4):467-473. 被引量：2
10万洪善,袁芹.基于改性碳纳米管分散固相萃取吸附剂-高效液相色谱法检测酱菜中3种食品防腐剂[J].山西化工,2019,39(5):28-30. 被引量：3

1王保平,谢吉华.场致发射阵列真空荧光平板显示屏的研究[J].电子器件,1992,15(2):101-104. 被引量：3
2XiaoXudong.Observation of Photoluminescence from 0.4nm Carbon Nanotubes[J].量子电子学报,2002,19(6):559-560.
3段新超,王小平,王丽军,王隆洋,张雷.平板显示用场发射冷阴极材料[J].材料导报,2008,22(1):8-12. 被引量：3
4彭自安,冯进军.真空微电子学在微波和毫米波中的应用前景[J].真空电子技术,1995,8(5):25-29. 被引量：4
5Weifeng Li,Gang Zhang,Meng Guo,Yong-Wei Zhang.Strain-tunable electronic and transport properties of MoS2 nanotubes[J].Nano Research,2014,7(4):518-527. 被引量：9
6刘同喜.集成光化学蒸汽微型传感器[J].上海半导体,1992(1):49-52.
7季旭东.在FEA中使用的MOSFET技术[J].光电技术,1999,40(2):74-79.
8周洪军,尉伟,洪义麟,徐向东,陶晓明,霍同林,付绍军,裴元吉.场致发射阵列制作工艺的研究[J].微细加工技术,2001(3):14-17. 被引量：1
9张楷亮,林新元,许旺,苗银萍,胡凯,张勇.Effect of substrate temperature on aligned high-density carbon nanotubes deposited by RF-PECVD[J].Optoelectronics Letters,2011,7(2):85-87.
10季旭东.FED的新材料——碳微管薄膜[J].光电子技术,2003,23(1):65-67. 被引量：1

Science China(Physics,Mechanics & Astronomy)

2013年第11期

浏览历史

内容加载中请稍等...