Spin orbit coupling and Lorentz force enhanced efficiency of TiO2 based dye sensitized solar cells
U. M. Kannan, M. Venkat Narayana, Ganesh Kotnana, Jaipal Kandhadi, L., Giribabu, Surya Prakash Singh, S. Narayana Jammalamadaka

TL;DR
This study demonstrates that incorporating Ho2O3 and applying perpendicular electric and magnetic fields significantly enhances the efficiency of TiO2-based dye-sensitized solar cells by increasing exciton lifetime and charge transport.
Contribution
The paper introduces a novel approach combining spin orbit coupling via Ho2O3 and Lorentz force application to improve dye-sensitized solar cell efficiency.
Findings
13% efficiency increase with Ho2O3 inclusion
16% efficiency increase with perpendicular electric and magnetic fields
Enhanced charge transport and reduced recombination rates
Abstract
We report on the effect of the strong spin orbit coupling and the Lorentz force on the efficiency of TiO2 based dye sensitized solar cells. Upon inclusion of Ho2O3, due to the strong spin orbit coupling of the rare earth Ho3+ ion, we do see 13 percent enhancement in the efficiency. We attribute such an enhancement in power conversion efficiency to the increased lifetime of the photo-excited excitons. Essentially, a Ho3+ ion accelerates the phenomenon of the spin rephasing or the intersystem crossing of the excitons in a photosensitizer. Increase in the absorbance and decrease in the photoluminescence intensity suggests a decrease in the recombination rate, hinting an enhanced charge transport and is in accordance with our electrochemical impedance spectra and the J V characteristics. From the above we strongly believe that enhanced efficiency of the device is due to increased…
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