Theoretical Investigation Of Some Parameters Into The Behavior Of Quantum Dot Solar Cells

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Optical Resonance Engineering for Infrared Letter Colloidal

dal quantum dot solar cells based on integrated Fabry−Perot cavities. By integrating the active layer of the photovoltaic device between two reflective interfaces, we tune its sensitivity in the spectral region at 1100−1350 nm. The top and bottom electrodes also serve as mirrors, converting the device into an optical resonator. The front

Insights from Device Modeling of Perovskite Solar Cells

observed in perovskite-based solar cells.27-28 The key difference between these simulations and those developed earlier for organic or quantum dot photovoltaic devices is the inclusion of ions as species that can move upon the application of an electric field. This means that an additional set

A Comparative Study of Electronic Properties of Bulk MoS2 and

2, to create tunable photonic devices and solar cells [23] and even to control the magnetic properties of MoS 2 [19] [20]. While strain perturbs the band structure of all mate-rials, two-dimensional materials such as MoS 2 can sustain strains greater than 11% [24] allowing exceptional control of material properties by strain engineering.