New insights into acidic wet chemical silicon etching by HF/H sub(2)O-NOHSO sub(4)-H sub(2)SO sub(4) solutions
Acidic wet chemical etching of crystalline silicon has been examined by utilization of HF-NOHSO sub(4)-H sub(2)SO sub(4) mixtures. In light of our previous studies the effects of nitrosyl ion concentrations on etching rates were studied time- and temperature resolved. The reactivity of crystalline s...
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| Veröffentlicht in: | Materials science in semiconductor processing 2010-04, Vol.13 (2), p.71-79 |
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| creator | Patzig-Klein, Sebastian Roewer, Gerhard Kroke, Edwin |
| description | Acidic wet chemical etching of crystalline silicon has been examined by utilization of HF-NOHSO sub(4)-H sub(2)SO sub(4) mixtures. In light of our previous studies the effects of nitrosyl ion concentrations on etching rates were studied time- and temperature resolved. The reactivity of crystalline silicon surfaces in HF/H sub(2)SO sub(4) solutions is determined by NO super(+)-ion concentrations at the silicon/electrolyte interface, measured by ion chromatography. Quantitative solution analysis proofed accumulation of ammonium ions and indicated the conversion of NO super(+) as limiting for the overall etching process. Direct participation in the rate-limiting step was confirmed by calculation of activation energies. Increasing NO super(+)-ion contents cause transition from reaction (E sub(A)=55 kJ mol super(-1)) to diffusion controlled (E sub(A)=10 kJ mol super(-1)) etching procedures. In combination with time and concentration dependent studies of produced structures a convenient regime for selective texturing or polishing polycrystalline silicon surfaces is reported. Qualitative analysis by super(19)F-NMR and Raman spectroscopy identified SiF sub(5) super(-)/HF sub(2) super(-) complexes as well as elementary hydrogen (H sub(2)) as hitherto unknown products of silicon dissolution reactions in HF-NOHSO sub(4)-H sub(2)SO sub(4) mixtures. Based on our findings a strategy for fundamental investigations of relevant reaction pathways is presented and discussed with regard to reported mechanistic concepts. |
| doi_str_mv | 10.1016/j.mssp.2010.03.001 |
| format | Article |
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In light of our previous studies the effects of nitrosyl ion concentrations on etching rates were studied time- and temperature resolved. The reactivity of crystalline silicon surfaces in HF/H sub(2)SO sub(4) solutions is determined by NO super(+)-ion concentrations at the silicon/electrolyte interface, measured by ion chromatography. Quantitative solution analysis proofed accumulation of ammonium ions and indicated the conversion of NO super(+) as limiting for the overall etching process. Direct participation in the rate-limiting step was confirmed by calculation of activation energies. Increasing NO super(+)-ion contents cause transition from reaction (E sub(A)=55 kJ mol super(-1)) to diffusion controlled (E sub(A)=10 kJ mol super(-1)) etching procedures. In combination with time and concentration dependent studies of produced structures a convenient regime for selective texturing or polishing polycrystalline silicon surfaces is reported. Qualitative analysis by super(19)F-NMR and Raman spectroscopy identified SiF sub(5) super(-)/HF sub(2) super(-) complexes as well as elementary hydrogen (H sub(2)) as hitherto unknown products of silicon dissolution reactions in HF-NOHSO sub(4)-H sub(2)SO sub(4) mixtures. 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In light of our previous studies the effects of nitrosyl ion concentrations on etching rates were studied time- and temperature resolved. The reactivity of crystalline silicon surfaces in HF/H sub(2)SO sub(4) solutions is determined by NO super(+)-ion concentrations at the silicon/electrolyte interface, measured by ion chromatography. Quantitative solution analysis proofed accumulation of ammonium ions and indicated the conversion of NO super(+) as limiting for the overall etching process. Direct participation in the rate-limiting step was confirmed by calculation of activation energies. Increasing NO super(+)-ion contents cause transition from reaction (E sub(A)=55 kJ mol super(-1)) to diffusion controlled (E sub(A)=10 kJ mol super(-1)) etching procedures. In combination with time and concentration dependent studies of produced structures a convenient regime for selective texturing or polishing polycrystalline silicon surfaces is reported. Qualitative analysis by super(19)F-NMR and Raman spectroscopy identified SiF sub(5) super(-)/HF sub(2) super(-) complexes as well as elementary hydrogen (H sub(2)) as hitherto unknown products of silicon dissolution reactions in HF-NOHSO sub(4)-H sub(2)SO sub(4) mixtures. 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Qualitative analysis by super(19)F-NMR and Raman spectroscopy identified SiF sub(5) super(-)/HF sub(2) super(-) complexes as well as elementary hydrogen (H sub(2)) as hitherto unknown products of silicon dissolution reactions in HF-NOHSO sub(4)-H sub(2)SO sub(4) mixtures. Based on our findings a strategy for fundamental investigations of relevant reaction pathways is presented and discussed with regard to reported mechanistic concepts.</abstract><doi>10.1016/j.mssp.2010.03.001</doi></addata></record> |
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| source | Elsevier ScienceDirect Journals Complete |
| subjects | Constraining Crystal structure Dissolution Etching Hafnium Materials science Semiconductors Silicon |
| title | New insights into acidic wet chemical silicon etching by HF/H sub(2)O-NOHSO sub(4)-H sub(2)SO sub(4) solutions |
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