Plasmonically Enhanced Schottky Photovoltaic Devices
Modeling and simulation of graphene-gated graphene-gaas schottky junction field-effect solar cell for its performance enhancement. IEEE Transactions on Electron Devices 62, ...
Modeling and simulation of graphene-gated graphene-gaas schottky junction field-effect solar cell for its performance enhancement. IEEE Transactions on Electron Devices 62, ...
Modeling and simulation of graphene-gated graphene-gaas schottky junction field-effect solar cell for its performance enhancement. IEEE Transactions on Electron Devices 62, ...
In this paper, we will examine the general operating principles of Schottky junction solar cells, with particularly emphasis on the MIS-IL design of primary commercial interest. As discussed in class, an interface between a metal and semiconductor can induce a …
Schottky junction solar cells, fabricated by directly depositing a thin layer of metal or transparency electrode on a moderate doped semiconductor wafer, are receiving much attention in photovoltaic eld.9 Compared to the traditional p–n junction solar cells, the Schottky junction solar cells have the merits of easy fabrication and low cost.8 However, the metal layer should be thick enough …
1. Introduction. Due to the attractive characteristics of graphene, it has been used to prepare graphene devices such as solar cells [1].Several structures have been developed to develop graphene/n-silicon (Si) Schottky junction solar cells [2], [3], [4].One of those structures is the top-window structure [2], which has been widely reported for the fabrication process.
This paper studies Pt/WSe2 vertical Schottky junction solar cells with various WSe2 thicknesses in order to find the optimum absorber thickness. Also, we show that the devices'' photovoltaic performance can be improved via Al2O3 passivation, which increases the EQE up to 29.5% at 410 nm wavelength incident light. The overall resulting short ...
Schottky junction solar cells A photovoltaic cell can be created from the Schottky junction between a semiconductor and a metal, with or without an insulating layer between them. Solar cells of this type have a long history, dating back to 1883, when Charles Fritts coated selenium with a thin layer of gold to make one of the world''s first solar cells. However, since then, they have …
In this study, both plasmonic and luminescent materials are employed for enhancing the performance of silicon-based Schottky solar cells. CdSe/ZnS core/shell QDs and controlled sizes of gold nanoparticles (Au NPs) have been …
In recent years, there has been a growing interest in developing graphene/silicon Schottky junction solar cells and the power conversion efficiency has reached up to 15.8% with an incredible speed. In this review, we introduce the structure …
The Schottky junction solar cells are the simplest and single-layer structure of solar cells, offering low-cost and easy fabrication. In this study, we have simulated and analyzed the Schottky junction perovskite solar cells, having the device structure of FTO/MAPbI 3 /Au. The simulation has done by Solar Cell Capacitance Simulator (SCAPS-1D). In this simulation, we …
Gr/n-Si Schottky junction solar cells are the subject of this research which has expected extensive consideration in the contemporary era as they might be conveniently produced at lesser temperatures with much less material usage. Basically, it is considered a low-cost and high-performance photovoltaic device. In photovoltaics characteristics, the Gr has …
In this study, both plasmonic and luminescent materials are employed for enhancing the performance of silicon-based Schottky solar cells. CdSe/ZnS core/shell QDs and controlled sizes of gold nanoparticles (Au NPs) have been deployed to investigate the effect of hybrid structure on optoelectrical properties of the solar cell.
In this paper, we will examine the general operating principles of Schottky junction solar cells, with particularly emphasis on the MIS-IL design of primary commercial interest. As discussed in …
Chemical Vapor Deposition (CVD)-graphene has potentially been integrated with silicon (Si) substrates for developing graphene/n-Si Schottky junction solar cells prepared with …
The Schottky junction, with merits of material universality, low cost and easy fabrication, is an alternative structure for solar cells. Compared to traditional indium-tin-oxide (ITO) based Schottky junction solar cells, graphene-based …
In a basic Schottky-junction (Schottky-barrier) solar cell, an interface between a metal and a semiconductor provides the band bending necessary for charge separation. [1] Traditional solar cells are composed of p-type and n-type semiconductor layers sandwiched together, forming the source of built-in voltage (a p-n junction ). [ 2 ]
Compared with the p-n junction solar cell, the Schottky diode solar cell has a relatively small V OC, which is limited by the SBH. [12-15] It is well known that the Schottky contacts with thinner WS 2 flakes have larger SBH, owing to the smaller electron affinities of the thinner WS 2. We observed lower current from the thinner WS 2 region, which could be …
The Schottky junction, with merits of material universality, low cost and easy fabrication, is an alternative structure for solar cells. Compared to traditional indium-tin-oxide (ITO) based Schottky junction solar cells, graphene-based ones have merits of low cost, performance stability, and are applicable t Nanomaterials for Energy Conversion ...
In this article, the concept of floating gate Schottky junction (FGSJ) solar cell with improved photovoltaic properties, compared to those of the conventional Schottky junction solar...
Through Schottky junction analysis, the electrical properties of the samples corroborate solar cell behavior with distinct reverse saturation currents. Compared to SnO 2 …
Chemical Vapor Deposition (CVD)-graphene has potentially been integrated with silicon (Si) substrates for developing graphene/n-Si Schottky junction solar cells prepared with the top window structure.
Through Schottky junction analysis, the electrical properties of the samples corroborate solar cell behavior with distinct reverse saturation currents. Compared to SnO 2 NFs, the T-NFLs have a higher photo-conversion efficiency (1.76 ± 0.03%) as well as a higher electron affinity (4.56 eV) and fill factor (61%).
In recent years, there has been a growing interest in developing graphene/silicon Schottky junction solar cells and the power conversion efficiency has reached up to 15.8% with an incredible speed. In this review, we introduce the structure and mechanism of graphene/silicon solar cells briefly, and then summarize several key strategies to ...
Graphene/silicon (Gr/Si) Schottky junction solar cells have attracted extensive research interest due to their simple structure and potential low-cost. Surface texturing is an important part of high-efficiency solar cells. In this paper, the effects of TMAH concentration, IPA concentration and etching time on the structure and anti-reflection ability of silicon pyramid …
We are presenting a solar cell consisting of electron-doped graphene (n-G)/holes-doped silicon (p-Si) Schottky junction, which provides a very high power conversion efficiency (PCE). The high PCE of our solar cell is caused by its high Schottky barrier height, which gives a very low value for the saturated reverse current (I0), and consequently, occurs a very low value of the current …
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