2013
DOI: 10.1088/0957-4484/24/16/165701
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Structural changes in amorphous GexSiOyon the way to nanocrystal formation

Abstract: Temperature induced changes of the local chemical structure of bulk amorphous GexSiOy are studied by Ge K-edge x-ray absorption near-edge spectroscopy and Si L2/3-edge x-ray Raman scattering spectroscopy. Different processes are revealed which lead to formation of Ge regions embedded in a Si oxide matrix due to different initial structures of as-prepared samples, depending on their Ge/Si/O ratio and temperature treatment, eventually resulting in the occurrence of nanocrystals. Here, disproportionation of GeOx … Show more

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Cited by 12 publications
(6 citation statements)
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“…The sample deposited at 500 °C is different, so almost whole amount of Ge is oxidized (the curve of oxidized Ge is very close to that of total Ge) and the concentration of oxidized Ge (together with total Ge) decreases from the film/Si interface to the free surface of the film. This suggests that a part of Ge is lost, even during film deposition at higher temperature by formation of GeO 36,3840 that is described by following reactions: (i) phase separation by GeO x → Ge + GeO 2 or by reduction of Ge oxides by Si or Si sub-oxides via GeO x + SiO y → Ge + GeO x − z + SiO y + z (this reaction starts at 300 °C) and then (ii) Ge loss by reaction GeO 2 (solid) + Ge(solid) → GeO(gas) (this becomes dominant at temperature over 400 °C 38,39,41 .
Figure 3Atomic concentration dependence on the film thickness, for films deposited at ( a ) 300 °C and ( b ) 500 °C. The concentrations were obtained from XPS measurements, namely O 1 s, Ge 3p and Si 2p lines.
…”
Section: Resultsmentioning
confidence: 99%
“…The sample deposited at 500 °C is different, so almost whole amount of Ge is oxidized (the curve of oxidized Ge is very close to that of total Ge) and the concentration of oxidized Ge (together with total Ge) decreases from the film/Si interface to the free surface of the film. This suggests that a part of Ge is lost, even during film deposition at higher temperature by formation of GeO 36,3840 that is described by following reactions: (i) phase separation by GeO x → Ge + GeO 2 or by reduction of Ge oxides by Si or Si sub-oxides via GeO x + SiO y → Ge + GeO x − z + SiO y + z (this reaction starts at 300 °C) and then (ii) Ge loss by reaction GeO 2 (solid) + Ge(solid) → GeO(gas) (this becomes dominant at temperature over 400 °C 38,39,41 .
Figure 3Atomic concentration dependence on the film thickness, for films deposited at ( a ) 300 °C and ( b ) 500 °C. The concentrations were obtained from XPS measurements, namely O 1 s, Ge 3p and Si 2p lines.
…”
Section: Resultsmentioning
confidence: 99%
“…It is known that the chemical reduction of GeO x plays an important role and represents the major mechanism to produce size-controlled Ge-nps, embedded into a dielectric matrix of stoichiometric SiO 2 . This determines the dark current level (which should be as small as possible) whereas Ge:SiO x layers with small oxygen deficit ( x < 2) represent the favorable components for photovoltaic applications, according to the analysis conducted by A. Nyrow and co-workers [35]. This approach is reported also in the research led by W. Little et al which assigns the light emission in Ge-nps to the presence of oxygen-terminated nanoparticles [36].…”
Section: Resultsmentioning
confidence: 99%
“…Вследствие своей непрямозонной структуры объемный германий (Ge) не может излучать свет с высокой эффективностью. Исследователи пытаются использовать ряд подходов для преодоления этого фундаментального ограничения, такие как смягчение правил отбора по квазиимпульсу в квантоворазмерных нанокластерах [4][5][6][7]; приложение деформаций, изменяющих зонную струк-туру [8][9][10]; создание светоизлучающих дефектов [11][12][13]; создание наночастиц Ge x Si 1−x [14][15][16][17][18][19][20]. В то время как нанокристаллы (НК) кремния хорошо изучены, НК Ge изучались не столь интенсивно, хотя они обладают преимуществами.…”
Section: Introductionunclassified