OPTICAL AND STRUCTURAL-PROPERTIES OF HYDROGEN IMPLANTED SILICON-CARBON ALLOYS

The hydrogen effects on the optical and structural properties of amorphous silicon carbon alloys are investigated for different hydrogen concentration (0-20 at.%) and a fixed silicon to carbon concentration ratio (x(Si)/x(C) = 1). Hydrogen was introduced into a preamorphized SiC sample by ion implantation of H ions with energies in the range 5-20 keV and fluences in the range 10(17)-5 X 10(17) ions/cm(2) obtaining an uniform concentration in the amorphous layer (130 nm thick). Raman spectra evidences the presence of both a-Si and a-C structures even in the unhydrogenated samples and the optical energy gap increases with hydrogen concentration. Thermal annealing at 350 degrees C induces a further increase of the optical energy gap, in particular from 1.45 to 1.65 eV in the 20 at.% hydrogen containing a-SiC:H. These and other results, compared to those obtained in pure amorphous silicon and carbon layers, suggest a similarity between the optical and structural behaviour of silicon carbon alloys and that of amorphous carbon.



Titolo: OPTICAL AND STRUCTURAL-PROPERTIES OF HYDROGEN IMPLANTED SILICON-CARBON ALLOYS
Autori interni: 
COMPAGNINI, Giuseppe Romano
CALCAGNO, Lucia
mostra contributor esterni 
Data di pubblicazione: 1995
Rivista: 
NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH. SECTION B, BEAM INTERACTIONS WITH MATERIALS AND ATOMS  
Abstract: The hydrogen effects on the optical and structural properties of amorphous silicon carbon alloys are investigated for different hydrogen concentration (0-20 at.%) and a fixed silicon to carbon concentration ratio (x(Si)/x(C) = 1). Hydrogen was introduced into a preamorphized SiC sample by ion implantation of H ions with energies in the range 5-20 keV and fluences in the range 10(17)-5 X 10(17) ions/cm(2) obtaining an uniform concentration in the amorphous layer (130 nm thick). Raman spectra evidences the presence of both a-Si and a-C structures even in the unhydrogenated samples and the optical energy gap increases with hydrogen concentration. Thermal annealing at 350 degrees C induces a further increase of the optical energy gap, in particular from 1.45 to 1.65 eV in the 20 at.% hydrogen containing a-SiC:H. These and other results, compared to those obtained in pure amorphous silicon and carbon layers, suggest a similarity between the optical and structural behaviour of silicon carbon alloys and that of amorphous carbon.
Handle: http://hdl.handle.net/20.500.11769/11508
Appare nelle tipologie:1.1 Articolo in rivista

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