In this research, we studied the effect of concentration carriers on the efficiency of the N749-TiO2 heterogeneous solar cell based on quantum electron transfer theory using a donor-acceptor scenario. The photoelectric properties of the N749-TiO2 interfaces in dye sensitized solar cells DSSCs are calculated using the J-V curves. For the 〖(CH_3)〗_3 COH solvent, the N749-TiO2 heterogeneous solar cell shows that the concentration carrier together with the strength coupling are the main factors affecting the current density, fill factor and efficiency. The current density and current increase as the concentration increases and the strength coupling increases as the N749-TiO2 heterogeneous in solar cell. However, the efficiency is more sensitive as the carrier increases and the coupling strength gradually increases from 0.1×〖10〗^(-2 ) |eV|^2 to B 1.5×〖10〗^(-2 ) |eV|^2 respectivelly. However, the concentration carrier changes of the N749-TiO2 device affect the performance of the dye solar cell and it has a higher efficiency with concentration 4.5×〖10〗^(24 ) 1⁄m^3 than with less concentration 1.5×〖10〗^(24 ) 1⁄m^3 .
Study of The Effect of Concentration on The
Efficiency of The Sensitive N749-TiO2
Solar Cell
concentration carriers
Publication Date
Fri Dec 30 2022
Journal Name
Iraqi Journal Of Science
Radon Assessment in Ceratophyllum demersum Plant Samples
Ceratophyllum demersum
CR-39
radium content
radon
Tigris River
uranium concentration
The amount of radioactive isotopes in submerged Ceratophyllum demersum plants samples were estimated using passive track detector CR-39. The samples were collected from four selected sites along the Tigris River in Baghdad city, on a monthly basis for one complete year of 2019. Certain factors like radon concentration (Bq.m-3), radium content (Bq.kg-1) and uranium concentration (ppm) were evaluated. The average values of 222Rn level, 226Ra content and 238U concentration in Ceratophyllum demersum samples for site (1) were (593.1 Bq.m-3, 5.8 Bq.kg-1, 0.113 ppm), site (2) were (413.4 Bq.m-3, 3.8 Bq.kg-1, 0.074 ppm)
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