物理化学学报
物理化學學報
물이화학학보
ACTA PHYSICO-CHIMICA SINICA
2008年
8期
1411-1416
,共6页
铬酸%硝酸%碳纳米管%场发射
鉻痠%硝痠%碳納米管%場髮射
락산%초산%탄납미관%장발사
Chromic trioxide%Nitric acid%Carbon nanotubcs%Field emission
为了修饰碳纳米管(CNTs)的表面型态及改变碳纳米管的表面结构,进一步增强碳纳米管的场发射特性,使用铬酸及硝酸的混合溶液对碳纳米管进行后处理.采用SEM、TEM、Raman和EDS测试手段对样品的形貌、表面成份组成和微观结构特征进行了表征.场发射(FE)的数据显示,经过铬酸及硝酸的混合溶液处理20 min的碳纳米管场发射电流比未经任何处理的碳纳米管场发射电流明显增加一个数量级以上,场发射电流增强的主要原因为样品上的碳纳米管的表面型态的改变,造成碳纳米管场发射增强因子β的增大.与单独使用硝酸溶液后处理比较,使用铬酸及硝酸的混合溶液对碳纳米管进行后处理可以得到较高的场发射电流及较低的起始电场.铬酸及硝酸的混合溶液处理方法能经济且有效增强碳纳米管的场发射特性.
為瞭脩飾碳納米管(CNTs)的錶麵型態及改變碳納米管的錶麵結構,進一步增彊碳納米管的場髮射特性,使用鉻痠及硝痠的混閤溶液對碳納米管進行後處理.採用SEM、TEM、Raman和EDS測試手段對樣品的形貌、錶麵成份組成和微觀結構特徵進行瞭錶徵.場髮射(FE)的數據顯示,經過鉻痠及硝痠的混閤溶液處理20 min的碳納米管場髮射電流比未經任何處理的碳納米管場髮射電流明顯增加一箇數量級以上,場髮射電流增彊的主要原因為樣品上的碳納米管的錶麵型態的改變,造成碳納米管場髮射增彊因子β的增大.與單獨使用硝痠溶液後處理比較,使用鉻痠及硝痠的混閤溶液對碳納米管進行後處理可以得到較高的場髮射電流及較低的起始電場.鉻痠及硝痠的混閤溶液處理方法能經濟且有效增彊碳納米管的場髮射特性.
위료수식탄납미관(CNTs)적표면형태급개변탄납미관적표면결구,진일보증강탄납미관적장발사특성,사용락산급초산적혼합용액대탄납미관진행후처리.채용SEM、TEM、Raman화EDS측시수단대양품적형모、표면성빈조성화미관결구특정진행료표정.장발사(FE)적수거현시,경과락산급초산적혼합용액처리20 min적탄납미관장발사전류비미경임하처리적탄납미관장발사전류명현증가일개수량급이상,장발사전류증강적주요원인위양품상적탄납미관적표면형태적개변,조성탄납미관장발사증강인자β적증대.여단독사용초산용액후처리비교,사용락산급초산적혼합용액대탄납미관진행후처리가이득도교고적장발사전류급교저적기시전장.락산급초산적혼합용액처리방법능경제차유효증강탄납미관적장발사특성.
A simple acid treatment method was apphed to functionalize the surface and to modify the structures of multi-walled carbon nanotubes(CNTs)grown on silicon substrates using a mixed solution of chromic trioxide(CrO3)and nitric acid(HNO3).Scanning electron microscopy(SEM),transmission electron microscopy(TEM),Raman spectroscopy,and energy dispersive spectrometer(EDS)were employed to investigate the mechanism causing the modified field emission(FE)properties of the CNT films.After 20 min of CrO3+HNO3 treatment,the emitted currents were erdaanted by more than one order of magnitude compared with those of the untreated CNTs.This large increases in emitted current can be attributed to the favorable surface morphologies,open-ended structures,and highly curved CNT surfaces in the CNT films.These factors altogether caused an increase in the field enhancement factors of CNTs.We also demonstrated that using a mixed solution of CrO3+HNO3 post-treatment exhibited a higher emission current and a lower turn-on electric field than in the CNTs treated with HNO3.The method provides a sunple,economical,and effective way to enhance the CNT field emission properties.
