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13:00 - 13:30
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Manuscript ID. 0736
Paper No. 2021-FRI-S0904-I001
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Invited Speaker:
Naoki FUKATA
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Nanostructured Solar Cells with combined function of Silicon and Perovskite Nanostructures
Naoki FUKATA
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13:30 - 13:45
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Manuscript ID. 0174
Paper No. 2021-FRI-S0904-O001
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| Yang-Zhan Lin
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Hydrogenated amorphous silicon oxide a-SiOx:H/a-SiOy:H superlattice p-i-n solar cells
Yeu-Long Jiang;Yan-Fen Wei;Yang-Zhan Lin
The pulse-wave modulation plasma with CO2/SiH4 gas flow ratio were used to separately deposit a 100 nm thick high energy gap (Eg) a-SiOx:H (C layer) film, a low Eg a-SiOy:H (A layer) film or a C/A superlattice (a-SiOx:H/a-SiOy:H) film at p/i or i/n interface of a p-i(a-Si:H)-n reference cell. The influence of C, A and C/A superlattice thin films at the p/i and i/n interfaces on the electric properties of p-i-n solar cells were investigated.
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13:45 - 14:00
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Manuscript ID. 0226
Paper No. 2021-FRI-S0904-O002
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| Shuo-Heng Chien
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Passivation effects of a-SiOx:H thin films on the silicon heterojunction solar cells
Yeu-Long Jiang;Chi-Ying Chuang;Shuo-Heng Chien
Pulse-wave modulation plasma with change the CO2/SiH4 gas ratio and RF power was used to fabricate and control the structural and optical properties of i-a-SiOx:H intrinsic passivation layer for HIT solar cells. The effects of single i-a-Si:H or i-a-SiOx:H layer, and dual i1-a-SiOx:H/i2-a-Si:H passivation layers on the performance of HIT solar cells were investigated.
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14:00 - 14:15
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Manuscript ID. 0548
Paper No. 2021-FRI-S0904-O003
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| Chin-Ping Yu
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Open-cavity Mach-Zehnder Interferometer Sensor Formed by Photonic Crystal Fiber and Polished Pencil-shape Single-mode Fiber
Pei-Jhen Wong;Chin-Ping Yu
We propose an open-cavity Mach-Zehnder interferometer by splicing a photonic crystal fiber (PCF) with a polished pencil-shape single-mode fiber (SMF). It is shown that the gas indeed can be filled into the open cavity successfully, and the measured pressure sensitivity is -67.86pm/psi.
 Preview abstract
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14:15 - 14:30
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Manuscript ID. 0168
Paper No. 2021-FRI-S0904-O004
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| Wei-Lun Hsu
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Numerical Simulation of Negative Curvature Hollow-Core Photonic Crystal Fiber
Jung-Sheng Chiang;Yu-Cheng Chuang;Jeng-Chian Lai;Wei-Lun Hsu;Nai-Hsiang Sun
The guided mode of NC-HCPCF with different core diameters, the thickness, and numbers of capillaries for capillary cladding designs by simulation are presented. The proper number of negative curvature ratios enhances the fundamental mode power and the 8-capillary cladding of NC-HCPCF is better than 5- to 7-capillary for transmission power.
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