液晶与显示
液晶與顯示
액정여현시
CHINESE JOURNAL OF LIQUID CRYSTALS AND DISPLAYS
2009年
6期
804-808
,共5页
范翊%高凤梅%杨为佑%蒋大鹏%张立功
範翊%高鳳梅%楊為祐%蔣大鵬%張立功
범익%고봉매%양위우%장대붕%장립공
SiC%有机前驱体%热裂解%纳米线%掺杂%光学性质
SiC%有機前驅體%熱裂解%納米線%摻雜%光學性質
SiC%유궤전구체%열렬해%납미선%참잡%광학성질
SiC%polymeric precursors%pyrolysis%nanowire%doping%optical properties
采用有机前驱体制备纳米材料工艺,制备出不同Al掺杂浓度的6H-SiC纳米线(Al/6H-SiC).用HRTEM、EDX、XRD等对纳米线进行了表征,发现随着起始材料中异丙醇铝含量的增加,所制备的纳米线中的Al浓度也在增加,最高可达到1.25%, HRTEM显示晶格间距为0.26 nm和0.25 nm,对应为6H-SiC的(101)和(102)面间距,Si、C原子比为1∶1.拉曼光谱得到这种6H-SiC的声子能量为100 meV,由吸收光谱带边吸收外推计算得到Al/6H-SiC纳米线光学带隙,掺杂浓度越大,吸收边红移越大.
採用有機前驅體製備納米材料工藝,製備齣不同Al摻雜濃度的6H-SiC納米線(Al/6H-SiC).用HRTEM、EDX、XRD等對納米線進行瞭錶徵,髮現隨著起始材料中異丙醇鋁含量的增加,所製備的納米線中的Al濃度也在增加,最高可達到1.25%, HRTEM顯示晶格間距為0.26 nm和0.25 nm,對應為6H-SiC的(101)和(102)麵間距,Si、C原子比為1∶1.拉曼光譜得到這種6H-SiC的聲子能量為100 meV,由吸收光譜帶邊吸收外推計算得到Al/6H-SiC納米線光學帶隙,摻雜濃度越大,吸收邊紅移越大.
채용유궤전구체제비납미재료공예,제비출불동Al참잡농도적6H-SiC납미선(Al/6H-SiC).용HRTEM、EDX、XRD등대납미선진행료표정,발현수착기시재료중이병순려함량적증가,소제비적납미선중적Al농도야재증가,최고가체도1.25%, HRTEM현시정격간거위0.26 nm화0.25 nm,대응위6H-SiC적(101)화(102)면간거,Si、C원자비위1∶1.랍만광보득도저충6H-SiC적성자능량위100 meV,유흡수광보대변흡수외추계산득도Al/6H-SiC납미선광학대극,참잡농도월대,흡수변홍이월대.
Al-doped 6H-SiC nanowires (Al/6H-SiC) were successfully fabricated via catalyst-assisted pyro-lysis of polymeric precursor. The samples were characterized by HRTEM,EDS and XRD. The results showed that the doped concentrations were adjusted from 0.5% up to 1.25% with the Al concentrations in the precursors. The HRTEM pattern illustrated that the lattice fringe spacings pattern demonstrated that Al-doping causes a decrease in the lattice parameters with Al concentration as compared with standard values. The optical properties of single-crystalline 6H-SiC nanowires with different Al doping levels were characterized by Raman and absorption spectra. The Raman spectra reveal that the phonon energy of the single-crystalline SiC nanowire is 100 meV. We estimated the optical absorption band-gap of nanowires from optical band-edge absorption. Al doping results in a red-shift on the optical absorption edge of SiC nanowire, thus it demonstrates a reduction of optical band gap.