The method of numerical simulation is used to fit the relationship between the photoconductivity in films and the illumination time. The generation and process rule of kinds of different charged defect states during i...The method of numerical simulation is used to fit the relationship between the photoconductivity in films and the illumination time. The generation and process rule of kinds of different charged defect states during illumination are revealed. It is found surprisingly that the initial photoconductivity determines directly the total account of photoconductivity degradation of sample.展开更多
Hydrogenated amorphous silicon (a-Si:H) films with high and same order of magnitude photosensitivity (-10^5) but different stability were prepared by using microwave electron cyclotron resonance chemical vapour d...Hydrogenated amorphous silicon (a-Si:H) films with high and same order of magnitude photosensitivity (-10^5) but different stability were prepared by using microwave electron cyclotron resonance chemical vapour deposition system under the different deposition conditions. It was proposed that there was no direct correlation between the photosensitivity and the hydrogen content (CH) as well as H-Si bonding configurations, but for the stability, they were the critical factors. The experimental results indicated that higher substrate temperature, hydrogen dilution ratio and lower deposition rate played an important role in improving the microstructure of a-Si:H films. We used hydrogen elimination model to explain our experimental results.展开更多
Influence of the parameters of plasma enhanced chemical vapor deposition (PECVD) on the surface morphology of hydrogenated amorphous silicon (α-Si:H) film was investigated. The root-mean-square (RMS) roughness...Influence of the parameters of plasma enhanced chemical vapor deposition (PECVD) on the surface morphology of hydrogenated amorphous silicon (α-Si:H) film was investigated. The root-mean-square (RMS) roughness of the film was measured by atomic force microscope (AFM) and the relevant results were analyzed using the surface smoothing mechanism of film deposition. It is shown that an α-Si:H film with smooth surface morphology can be obtained by increasing the PH3/N2 gas flow rate for 10% in a high frequency (HF) mode. For high power, however, the surface morphology of the film will deteriorate when the Sill4 gas flow rate increases. Furthermore, optimized parameters of PECVD for growing the film with smooth surface were obtained to be Sill4:25 sccm (standard cubic centimeters per minute), At: 275 sccm, 10%PH3/N2:2 sccm, HF power: 15 W, pressure: 0.9 Torr and temperature: 350℃. In addition, for in thick fihn deposition on silicon substrate, a N20 and NH3 preprocessing method is proposed to suppress the formation of gas bubbles.展开更多
Hydrogenated amorphous silicon (a-Si: H) films were deposited on Si (100) and glass substrates by dielectric barrier discharge enhanced chemical vapour deposition (DBD-CVD) in (SiH4+H2) atmosphere at room te...Hydrogenated amorphous silicon (a-Si: H) films were deposited on Si (100) and glass substrates by dielectric barrier discharge enhanced chemical vapour deposition (DBD-CVD) in (SiH4+H2) atmosphere at room temperature. Results of the thickness measurement, SEM (scanning electron microscope), Raman, and FTIR (Fourier transform infrared spectroscopy) show that with the increase in the applied peak voltage, the deposition rate and network order of the films increase, and the hydrogen bonding configurations mainly in di-hydrogen (Si-H2) and poly hydrogen (SiH2)n are introduced into the films. The UV-visible transmission spectra show that with the decrease in SiH4/ (SiHn+H2) the thin films' band gap shifts from 1.92 eV to 2.17 eV. These experimental results are in agreement with the theoretic analysis of the DBD discharge. The deposition of a-Si: H films by the DBD-CVD method as reported here for the first time is attractive because it allows fast deposition of a-Si: H films on large-area low-melting-point substrates and requires only a low cost of production without additional heating or pumping equipment.展开更多
A series of a-Si:H films are deposited by hot wire assisted microwave electron cyclotron resonant chemical vapour deposition (HW-MWECR-CVD), subsequently exposed under simulated illumination for three hours. This p...A series of a-Si:H films are deposited by hot wire assisted microwave electron cyclotron resonant chemical vapour deposition (HW-MWECR-CVD), subsequently exposed under simulated illumination for three hours. This paper studies the microstructure change during illumination by Fourier Transformation Infrared (FTIR) spectra. There are two typical transformation tendencies of microstructure after illumination. It proposes a model of light induced structural change based on the experimental results. It is found that all samples follow the same mechanism during illumination, and intrinsic structure of samples affect the total H content.展开更多
The application of a p~+/p configuration in the window layer of hydrogenated amorphous silicon thin film solar cells is simulated and analyzed utilizing an AMPS-ID program.The differences between p~+-p-i-n configura...The application of a p~+/p configuration in the window layer of hydrogenated amorphous silicon thin film solar cells is simulated and analyzed utilizing an AMPS-ID program.The differences between p~+-p-i-n configuration solar cells and p-i-n configuration solar cells are pointed out.The effects of dopant concentration, thickness of p~+-layer,contact barrier height and defect density on solar cells are analyzed.Our results indicate that solar cells with a p~+-p-i-n configuration have a better performance.The open circuit voltage and short circuit current were improved by increasing the dopant concentration of the p~+ layer and lowering the front contact barrier height.The defect density at the p/i interface which exceeds two orders of magnitude in the intrinsic layer will deteriorate the cell property.展开更多
文摘The method of numerical simulation is used to fit the relationship between the photoconductivity in films and the illumination time. The generation and process rule of kinds of different charged defect states during illumination are revealed. It is found surprisingly that the initial photoconductivity determines directly the total account of photoconductivity degradation of sample.
文摘Hydrogenated amorphous silicon (a-Si:H) films with high and same order of magnitude photosensitivity (-10^5) but different stability were prepared by using microwave electron cyclotron resonance chemical vapour deposition system under the different deposition conditions. It was proposed that there was no direct correlation between the photosensitivity and the hydrogen content (CH) as well as H-Si bonding configurations, but for the stability, they were the critical factors. The experimental results indicated that higher substrate temperature, hydrogen dilution ratio and lower deposition rate played an important role in improving the microstructure of a-Si:H films. We used hydrogen elimination model to explain our experimental results.
基金National Natural Science Foundation of China (Nos.60407013,60876081)the Shanghai-Applied Materials Research and Development Fund of China (No.06SA04)the National High Technology Research and Development Program of China (Nos.2009AA04Z317,2007AA04Z354-03)
文摘Influence of the parameters of plasma enhanced chemical vapor deposition (PECVD) on the surface morphology of hydrogenated amorphous silicon (α-Si:H) film was investigated. The root-mean-square (RMS) roughness of the film was measured by atomic force microscope (AFM) and the relevant results were analyzed using the surface smoothing mechanism of film deposition. It is shown that an α-Si:H film with smooth surface morphology can be obtained by increasing the PH3/N2 gas flow rate for 10% in a high frequency (HF) mode. For high power, however, the surface morphology of the film will deteriorate when the Sill4 gas flow rate increases. Furthermore, optimized parameters of PECVD for growing the film with smooth surface were obtained to be Sill4:25 sccm (standard cubic centimeters per minute), At: 275 sccm, 10%PH3/N2:2 sccm, HF power: 15 W, pressure: 0.9 Torr and temperature: 350℃. In addition, for in thick fihn deposition on silicon substrate, a N20 and NH3 preprocessing method is proposed to suppress the formation of gas bubbles.
基金the National Natural Science Foundation of china(No.50372060)
文摘Hydrogenated amorphous silicon (a-Si: H) films were deposited on Si (100) and glass substrates by dielectric barrier discharge enhanced chemical vapour deposition (DBD-CVD) in (SiH4+H2) atmosphere at room temperature. Results of the thickness measurement, SEM (scanning electron microscope), Raman, and FTIR (Fourier transform infrared spectroscopy) show that with the increase in the applied peak voltage, the deposition rate and network order of the films increase, and the hydrogen bonding configurations mainly in di-hydrogen (Si-H2) and poly hydrogen (SiH2)n are introduced into the films. The UV-visible transmission spectra show that with the decrease in SiH4/ (SiHn+H2) the thin films' band gap shifts from 1.92 eV to 2.17 eV. These experimental results are in agreement with the theoretic analysis of the DBD discharge. The deposition of a-Si: H films by the DBD-CVD method as reported here for the first time is attractive because it allows fast deposition of a-Si: H films on large-area low-melting-point substrates and requires only a low cost of production without additional heating or pumping equipment.
文摘A series of a-Si:H films are deposited by hot wire assisted microwave electron cyclotron resonant chemical vapour deposition (HW-MWECR-CVD), subsequently exposed under simulated illumination for three hours. This paper studies the microstructure change during illumination by Fourier Transformation Infrared (FTIR) spectra. There are two typical transformation tendencies of microstructure after illumination. It proposes a model of light induced structural change based on the experimental results. It is found that all samples follow the same mechanism during illumination, and intrinsic structure of samples affect the total H content.
基金supported by the Key Programs for Science and Technology Development of Jiangsu,China(Nos.BE20080030,BE2009028)the Qing Lan Project,China(No.2008-04)the Jiangsu"333"Project,China(No.201041)
文摘The application of a p~+/p configuration in the window layer of hydrogenated amorphous silicon thin film solar cells is simulated and analyzed utilizing an AMPS-ID program.The differences between p~+-p-i-n configuration solar cells and p-i-n configuration solar cells are pointed out.The effects of dopant concentration, thickness of p~+-layer,contact barrier height and defect density on solar cells are analyzed.Our results indicate that solar cells with a p~+-p-i-n configuration have a better performance.The open circuit voltage and short circuit current were improved by increasing the dopant concentration of the p~+ layer and lowering the front contact barrier height.The defect density at the p/i interface which exceeds two orders of magnitude in the intrinsic layer will deteriorate the cell property.
