標題: Single material TiO2 thin film by atomic layer deposition for antireflection and surface passivation applications on p-type c-Si
作者: Chen, Tsung-Cheng
Yang, Tsuo-Chuan
Cheng, Hsyi-En
Yu, Ing-Song
Yang, Zu-Po
光電系統研究所
Institute of Photonic System
關鍵字: Titanium oxide;Atomic layer deposition;Antireflection coating;Surface passivation
公開日期: 1-Sep-2018
摘要: A thin film deposited on the front surface of solar cell plays an important role in reducing the reflection of incident light and providing surface passivation. Although ultrathin TiO2 films have shown excellent performance of surface passivation, simultaneously serving both functions is hindered by the crystallization issue, which can degrade the passivation quality of TiO2 film, as the film thickness is over certain value (few nanometer only). Here we showed that both functions can be satisfied by single material of titanium oxide film through atomic layer deposition at low temperatures. By varying deposition temperatures from 80 to 200 degrees C, the TiO2 film deposited at 80 degrees C can maintain its amorphous phase up to the thickness of 114 nm. In addition, the optimal thickness for antireflection calculated by OPAL 2 is 61 nm, meaning that amorphous TiO2 film to provide antireflection and surface passivation can be achieved. The passivation quality is verified by minority carrier lifetime measurement using photo-conductance decay method and presented the ultralow surface recombination velocity of 8.7 cm/s. Furthermore, the passivation mechanism is investigated by X-ray diffraction (XRD) and secondary ion mass spectroscopy (SIMS), in which the absence of crystalline issue is confirm and both chemical passivation (due to H termination) and field effect passivation (due to residual Cl atoms) are associated with the improvement of passivation quality. A post deposition anneal is conducted on the TiO2 film deposited at 80 degrees C. The results present that extra thermal budgets can ruin the passivation quality, which is explicated by the TiO2 crystallization as the temperature exceeding 350 degrees C from the XRD measurements, and by the descending of Cl atom (also field effect passivation) as increasing of the annealing temperature from the SIMS measurements. (C) 2018 Elsevier B.V. All rights reserved.
URI: http://dx.doi.org/10.1016/j.apsusc.2018.04.078
http://hdl.handle.net/11536/145036
ISSN: 0169-4332
DOI: 10.1016/j.apsusc.2018.04.078
期刊: APPLIED SURFACE SCIENCE
Volume: 451
起始頁: 121
結束頁: 127
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