Excellent surface passivation of c-Si has been achieved by Al2O3 films prepd. by plasma-assisted at. layer deposition, yielding effective surface recombination velocities of 2 and 13 cm/s on low resistivity n- and p-type c-Si, resp. These results obtained for .apprx.30 nm thick Al2O3 films are comparable to state-of-the-art results when employing thermal oxide as used in record-efficiency c-Si solar cells. A 7 nm thin Al2O3 film still yields an effective surface recombination velocity of 5 cm/s on n-type silicon. [on SciFinder (R)
Thin Al2O3 films with a thickness of 7-30 nm synthesized by plasma-assisted at. layer deposition (AL...
In this Letter, we report that both thermal atomic layer deposition (ALD) with H2O, and plasma ALD w...
The surface passivation of c-Si by atomic layer deposited (ALD) Al2O3 has recently gained considerab...
Excellent surface passivation of c-Si has been achieved by Al2O3 films prepd. by plasma-assisted at....
Excellent surface passivation of c-Si has been achieved by Al2O3 films prepd. by plasma-assisted at....
Excellent surface passivation of c-Si has been achieved by Al2O3 films prepd. by plasma-assisted at....
Excellent surface passivation of c-Si has been achieved by Al2O3 films prepd. by plasma-assisted at....
Excellent surface passivation of c-Si has been achieved by Al2O3 films prepd. by plasma-assisted at....
Excellent surface passivation of c-Si has been achieved by Al2O3 films prepd. by plasma-assisted at....
Thin Al2O3 films with a thickness of 7-30 nm synthesized by plasma-assisted at. layer deposition (AL...
Thin Al2O3 films with a thickness of 7-30 nm synthesized by plasma-assisted at. layer deposition (AL...
Using aluminum oxide (Al2 O3) films deposited by high-rate spatial atomic layer deposition (ALD), we...
Thin Al2O3 films with a thickness of 7-30 nm synthesized by plasma-assisted at. layer deposition (AL...
In this Letter, we report that both thermal atomic layer deposition (ALD) with H2O, and plasma ALD w...
AbstractHigh-rate spatial atomic layer deposition (ALD) enables an industrially relevant deposition ...
Thin Al2O3 films with a thickness of 7-30 nm synthesized by plasma-assisted at. layer deposition (AL...
In this Letter, we report that both thermal atomic layer deposition (ALD) with H2O, and plasma ALD w...
The surface passivation of c-Si by atomic layer deposited (ALD) Al2O3 has recently gained considerab...
Excellent surface passivation of c-Si has been achieved by Al2O3 films prepd. by plasma-assisted at....
Excellent surface passivation of c-Si has been achieved by Al2O3 films prepd. by plasma-assisted at....
Excellent surface passivation of c-Si has been achieved by Al2O3 films prepd. by plasma-assisted at....
Excellent surface passivation of c-Si has been achieved by Al2O3 films prepd. by plasma-assisted at....
Excellent surface passivation of c-Si has been achieved by Al2O3 films prepd. by plasma-assisted at....
Excellent surface passivation of c-Si has been achieved by Al2O3 films prepd. by plasma-assisted at....
Thin Al2O3 films with a thickness of 7-30 nm synthesized by plasma-assisted at. layer deposition (AL...
Thin Al2O3 films with a thickness of 7-30 nm synthesized by plasma-assisted at. layer deposition (AL...
Using aluminum oxide (Al2 O3) films deposited by high-rate spatial atomic layer deposition (ALD), we...
Thin Al2O3 films with a thickness of 7-30 nm synthesized by plasma-assisted at. layer deposition (AL...
In this Letter, we report that both thermal atomic layer deposition (ALD) with H2O, and plasma ALD w...
AbstractHigh-rate spatial atomic layer deposition (ALD) enables an industrially relevant deposition ...
Thin Al2O3 films with a thickness of 7-30 nm synthesized by plasma-assisted at. layer deposition (AL...
In this Letter, we report that both thermal atomic layer deposition (ALD) with H2O, and plasma ALD w...
The surface passivation of c-Si by atomic layer deposited (ALD) Al2O3 has recently gained considerab...