TY - JOUR
T1 - Surface Passivation Properties of HfO2 Thin Film on n-Type Crystalline Si
AU - Cheng, Xuemei
AU - Repo, Paivikki
AU - Haug, Halvard
AU - Perros, Alexander Pyymaki
AU - Marstein, Erik Stensrud
AU - Di Sabatino, Marisa
AU - Savin, Hele
PY - 2017/3/1
Y1 - 2017/3/1
N2 - Atomic layer deposited hafnium oxide is shown to provide good surface passivation of low resistivity, n-type crystalline Si wafers after a low temperature anneal. The surface passivation is related to a fixed negative charge, as well as an excellent interface with the crystalline Si wafer. In this paper, the influence of four deposition parameters on the HfO2 passivation properties, namely precleaning, precursors, deposition temperature, and postannealing temperature, is discussed. Minority carrier lifetimes of 1.9 ms (surface recombination velocity (SRV) 7.7 cm/s) on float zone n-type wafers and 1.7 ms (SRV 11 cm/s) on Czochralski n-type wafers, under optimized deposition conditions and a postannealing process, have been measured. A significant improvement of the surface passivation is observed after 100 h light soaking, resulting in a carrier lifetime of 2.5 ms. Fitting of the results by a two-defect charge trapping/detrapping model indicates that additional light-induced negative charges enhance the field effect passivation, which is also consistent with the experimental results. Due to its high refractive index and the obtained good surface passivation of Si wafers, HfO2 has a great potential as a surface passivation material, e.g., in the fabrication of high-efficiency Si solar cells.
AB - Atomic layer deposited hafnium oxide is shown to provide good surface passivation of low resistivity, n-type crystalline Si wafers after a low temperature anneal. The surface passivation is related to a fixed negative charge, as well as an excellent interface with the crystalline Si wafer. In this paper, the influence of four deposition parameters on the HfO2 passivation properties, namely precleaning, precursors, deposition temperature, and postannealing temperature, is discussed. Minority carrier lifetimes of 1.9 ms (surface recombination velocity (SRV) 7.7 cm/s) on float zone n-type wafers and 1.7 ms (SRV 11 cm/s) on Czochralski n-type wafers, under optimized deposition conditions and a postannealing process, have been measured. A significant improvement of the surface passivation is observed after 100 h light soaking, resulting in a carrier lifetime of 2.5 ms. Fitting of the results by a two-defect charge trapping/detrapping model indicates that additional light-induced negative charges enhance the field effect passivation, which is also consistent with the experimental results. Due to its high refractive index and the obtained good surface passivation of Si wafers, HfO2 has a great potential as a surface passivation material, e.g., in the fabrication of high-efficiency Si solar cells.
KW - Atomic layer deposition (ALD)
KW - defect density
KW - fixed charges
KW - hafnium oxide (HfO)
KW - photovoltaic cells
KW - silicon surface passivation
UR - http://www.scopus.com/inward/record.url?scp=85009919655&partnerID=8YFLogxK
U2 - 10.1109/JPHOTOV.2016.2645399
DO - 10.1109/JPHOTOV.2016.2645399
M3 - Article
AN - SCOPUS:85009919655
SN - 2156-3381
VL - 7
SP - 479
EP - 485
JO - IEEE Journal of Photovoltaics
JF - IEEE Journal of Photovoltaics
IS - 2
M1 - 7812606
ER -