Simulation and investigation of perovskite/nano-pyramidal GeSe solar cell: Realizing high efficiency by controllable light trapping

Solar Energy ◽  
2021 ◽  
Vol 214 ◽  
pp. 310-318
Author(s):  
Masoud Aliyariyan ◽  
Davood Fathi ◽  
Mehdi Eskandari ◽  
Mohammad Hosein Mohammadi
Keyword(s):  
Solar Cell ◽  
High Efficiency ◽  
Light Trapping

scholarly journals Block Textured a-Si:H Solar Cell

2014 ◽  
Vol 2014 ◽  
pp. 1-6
Author(s):  
Seung Jae Moon ◽  
Chang Min Keum ◽  
Ju-Yeon Kim ◽  
Jin Kuk Kim ◽  
Byung Seong Bae
Keyword(s):  
Solar Cell ◽  
Glass Substrate ◽  
High Efficiency ◽  
Light Trapping ◽  
Steep Slope ◽  
Solar Cell Efficiency ◽  
Cell Efficiency ◽  
Block Height ◽  
Etching Profile ◽  
Glass Etching

A series of etching experiments on light trapping structure have been carried out by glass etching. The block structure provides long light traveling path and a constant distance between the cathode and anode electrodes regardless of the block height, which results in higher efficiency of the block textured solar cell. In terms of etching profile of the glass substrate, the addition of NH4F resulted in the smooth and clean etching profile, and the steep slope of the block was obtained by optimizing the composition of etching solution. For a higher HF concentration, a more graded slope was obtained and the addition of HNO3and NH4F provided steep slope and clean etching profile. The effects of the block textured glass were verified by a comparison of the solar cell efficiency. For the textured solar cell, the surface was much rougher than that of the plain glass, which also contributes to the improvement of the efficiency. We accomplished block shaped light trapping structure for the first time by wet etching of the glass substrate, which enables the high efficiency thin film solar cell with the aid of the good step coverage deposition.

Substrate and DLARC Layers Selection for High Efficiency Solar Cell

2019 ◽  
Vol 18 (01) ◽  
pp. 1850012 ◽  
Author(s):  
M. Ismail Fathima ◽  
K. S. Joseph Wilson
Keyword(s):  
Solar Cell ◽  
High Efficiency ◽  
Light Trapping ◽  
Substrate Material ◽  
Antireflective Coating ◽  
Angle Of Incidence ◽  
Si Substrate ◽  
Optical Losses ◽  
Near Ir ◽  
Selection For

Optical losses are one of the important parameters that affect the efficiency of solar cell. Various light-trapping techniques are used to reduce the optical losses, especially reflectivity loss. Antireflective coating (ARC) is used to reduce the reflectivity losses in the solar cell. In this paper, we have analyzed the reflectivity of double layer ARC (DLARC) in the solar cell using transfer matrix method. The reflectivity of various combinations of DLARC materials with a suitable substrate material is analyzed in the visible and near IR region. It is found that ZnS/Ge DLARC on Si substrate solar cell provides minimum reflectance in the range of wavelength 550–950[Formula: see text]nm. It is also found that zero reflectance occurs at 550[Formula: see text]nm. This minimum reflectance also depends on the angle of incidence. Here it is continuously maintained up to the angle of incidence from 0[Formula: see text] to 20[Formula: see text]. From these investigations, it is concluded that ZnS/Ge DLARC is one of the suitable DLARCs on Si substrate in 550–950[Formula: see text]nm range of wavelength.

Modified Stack Layer for a Two-Step Process for High Efficiency CZTSe Solar Cell

2019 ◽  
Vol 75 (9) ◽  
pp. 735-741 ◽  
Author(s):  
Jiwon Lee ◽  
Gyuho Han ◽  
JunHo Kim
Keyword(s):  
Solar Cell ◽  
High Efficiency ◽  
Step Process

scholarly journals Functionalization of Congo red dye as a light harvester on solar cell

2020 ◽  
Vol 18 (1) ◽  
pp. 287-294
Author(s):  
Harsasi Setyawati ◽  
Handoko Darmokoesoemo ◽  
Irmina Kris Murwani ◽  
Ahmadi Jaya Permana ◽  
Faidur Rochman
Keyword(s):  
Solar Cell ◽  
Congo Red ◽  
Large Scale ◽  
High Efficiency ◽  
Solar Cell Device ◽  
Dye Sensitized ◽  
Congo Red Dye ◽  
Elemental Analyses ◽  
Red Dye ◽  
Solar Cell Technology

AbstractThe demands of ecofriendly technologies to produce a reliable supply of renewable energy on a large scale remains a challenge. A solar cell based on DSSC (Dye-Sensitized Solar Cell) technology is environmentally friendly and holds the promise of a high efficiency in converting sunlight into electricity. This manuscript describes the development of a light harvester system as a main part of a DSSC. Congo red dye has been functionalized with metals (Fe, Co, Ni), forming a series of complexes that serve as a novel light harvester on the solar cell. Metal-congo red complexes have been characterized by UV-VIS and FTIR spectroscopy, and elemental analyses. The performance of metal complexes in capturing photons from sunlight has been investigated in a solar cell device. The incorporation of metals to congo red successfully improved of the congo red efficiency as follows: Fe(II)-congo red, Co(II)-congo red and Ni(II)-congo red had efficiencies of 8.17%, 6.13% and 2.65%, respectively. This research also discusses the effect of metal ions on the ability of congo red to capture energy from sunlight.

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