A dataset of functional and defective solar cells extracted from EL images of solar modules
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Updated
Sep 30, 2022 - Python
A dataset of functional and defective solar cells extracted from EL images of solar modules
A multi-scale, python-based library for the modelling of solar cells and semiconductor materials
Multi-label defect detection for Solar Cells from Electroluminescence images of the modules, using Deep Learning
Solar radiation model for flight dynamics. Based on Duffie & Beckman "Solar energy thermal processes" (1974)
Open-source, integrated optical modelling of complex stacks
Photovoltaic-Model: calculates the current-voltage characteristic of a solar cell using the two-diode model, with a possibility to fit an experimental characteristic
Python QT batch curve fitting GUI tool for solar cell IV data files
An electromagnetic solver capable of simulating and optimizing 1D (thin-layer) structures via the semi-analytical transfer matrix method. For example, one can simulate and optimize broadband distributed Bragg reflectors, anti-reflection coatings, optical bandpass filters, and photovoltaic devices.
Open-Source, Portable and Easy-to-use Solar Cell Optimizer
Shockley-Queisser limit Calculator. The Shockley-Queisser limit is the maximum photovoltaic efficiency obtained for a solar cell with respect to the absorber bandgap
Framework for the Simulation of Temperature Dependent Semiconductor Parameters in Silicon Solar Cells and their Respective Impact on the Current Density-Voltage Characteristic
Multi-label classification of defective solar cells with PyTorch using a pre-trained residual neural network
Code allows the use of different machine learning methods to predict efficiency of organic photovoltaics using different descriptors
A Simple Approach for Unraveling Optoelectronic Processes in Organic Solar Cells under Short‐Circuit Conditions
Solve detailed balance model of hot carrier solar cells.
Thermodynamic modelling of Cu2ZnSnS4 (CZTS) phase equilibria
Leading collaboration project within University of St Andrews, UK. Solar cell structures optical properties optimization
Web application to calculate maximum theoretical efficiency limits for solar cells
PyDrop uses OpenCV to detect water drops sliding off a surface of solar panel glass. PySurface measures how solar glass contaminants reflect/block light.
Revamped version of Solcore, a multi-scale, python-based library for the modelling of solar cells and semiconductor materials
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