Session Index

Photovoltaic Technology

Poster Session III
Friday, Dec. 8, 2017  12:30-14:00
Presider: -
Room: International Research Building 5F
Notes:
Paper No.  2017-FRI-P0903-P001
Kai-Wei Yang Analysis on Optical Emission Spectroscopy of CIGS Thin Films Prepared by DCMS, PMS and HPPMS process
Chien-Jen Tang;Kai-Wei Yang;Ching-Tang Li;Chia- Chun Wu;Ying-Xiang Liao;Wei-Hsuan Hsu;Ju-Liang He;Kuo-Feng Chiu

Cu(In,Ga)Se2 (CIGS) thin films were deposited by the sputtering of single quaternary target in DCMS, PMS and HPPMS. Optical Emission Spectroscopy was used to analyze the emission intensity of different plasma species for DCMS, PMS and HPPMS process. The characterizations of film and analysis of device were discussed.

 
 
Paper No.  2017-FRI-P0903-P002
Ting An Lee The Characteristics of Luminescent Solar Concentrators (LSCs) using Inorganic Phosphors
Ting An Lee;Ping Shang Ying

The ray-tracing simulation is used to investigate the optical characteristics of the LSC with the inorganic phosphors thin film on the top surface of the transparent plate. The simulation will also be used to study the use of mirror on the side and bottom surfaces of the transparent plate

 
 
Paper No.  2017-FRI-P0903-P003
Shu-Wei Guo Colorful Selectivity of Microcavity Structures Perovskite Solar Cells for Building-integrated Photovoltaic
Shu-Wei Guo;Hsi-Chao Chen;Bo-Jian Qiu;Ming-Sian Yan;Chun-Hao Chang

In this research, the microcavity structures was used to selectable the variant spectrum of perovskite solar cells for building-integrated photovoltaic. The thickness of the dielectric layer was controlled to achieve a variety of different high purity of colors. The spectral transmittance curves of perovskite photovoltaic was simulated by Essential Macleod.

 
 
Paper No.  2017-FRI-P0903-P004
Chao-Hong Wang The application of the sol-gel process ZnO electrode buffer layer in the inverted solar cells
Chao-Hong Wang;Mei-Ying Chang

In this study, we use the sol-gel method to deposit the ZnO film for the electrode buffer layer in the inverted bulk-heterojunction solar cells. Take different concentration of ZnO solution whose solute ratio is 1:1.2 ( ZAD:MEA ) to obtain the ZnO film, then compare the divergence of the film

 
 
Paper No.  2017-FRI-P0903-P005
Yu-Cheng Li Study on Graphene and Platinum Composite Materials as Counter Electrodes for Dye-Sensitized Solar Cells
Yu-Cheng Li;Chih-Hung Tsa

A series of graphene and platinium composite materials were prepared and used as counter electrodes for dye-sensitized solar cells. Among the various GN/Pt CEs, GN/Pt (1:6) composite materials yielded the optimal electrochemical catalytic properties and device efficiency. DSSCs fabricated with the GN/Pt (1:6) composite CEs yielded an efficiency of 9.29%

 
 
Paper No.  2017-FRI-P0903-P006
Hsiao-Lung Hsu Investigation of Adding Graphene Nanosheets in Liquid Electrolytes to Improve the Efficiency of Dye-Sensitized Solar Cells
Chih-Hung Tsai;Ping-Yuan Chuang;Hsiao-Lung Hsu

Graphene nanosheets were added in liquid electrolytes to increase the conductivity of the electrolyte and improve the efficiency of dye-sensitized solar cells. The DSSC device with the 20-mg graphene electrolyte solution attained the highest efficiency (9.26%), which was 20% higher than that of the device with the non-graphene electrolyte solution.

 
 
Paper No.  2017-FRI-P0903-P007
Jian Sheng Xie Su A Study of Encapsulation Material for Photovoltaic Module and Potential Induced Degradation
Jian Sheng Xie Su;Wen Kuei Lee;Mei Hsiu Lin;Chen Lung Huang

We studied EVA and Polyolefin as the encapsulation material of a photovoltaic module, which can resist potential induced degradation. The PID test results showed that Polyolefin presented a good performance for crystalline PV module because the volume resistivity of the polyolefin material was higher than that of the EVA material.

 
 
Paper No.  2017-FRI-P0903-P008
Kuan-Wei Chen Solution-process of molybdenum oxide with different concentrations in inverted organic solar cells
Kuan-Wei Chen;Kuo-Yu Hsu;Tzu-Sheng Huang;Mei-Ying Chang

In this study, we mix the PEDOT:PSS polymer [1] conductive solution with Molybdenum oxide nanoparticle (MoOx NPs) solution [2] in different volume percentages, 0%, 5%, 10%, 20%, 30%. In different percentage, it reveals different performances, such as efficiency, open circuit voltage short circuit current density and high stability.

 
 
Paper No.  2017-FRI-P0903-P009
Peng Yi Study Optical and Electrical Properties of Inorganic Phosphor for Luminescent Solar Concentrator
Bing-Mau Chen;Peng Yi;Yu-Ching Chu;Wan-Tian Tseng;Shang-Ping Ying

This study proposes the inorganic phosphor used in luminescent solar concentrator (LSC) for the luminescent material. The transmittance and electrical properties can be controlled by inorganic phosphor layer thickness. The maximum power of inorganic phosphor layer LSC can increased more than 2 times that of without phosphor layer.