solar-cells
There are 47 repositories under solar-cells topic.
zae-bayern/elpv-dataset
A dataset of functional and defective solar cells extracted from EL images of solar modules
qpv-research-group/solcore5
A multi-scale, python-based library for the modelling of solar cells and semiconductor materials
joeltroughton/uSMU
Credit card-sized, USB-powered 4 quadrant source-measure unit hardware and firmware
WMD-group/CarrierCapture.jl
Julia package to compute trap-assisted electron and hole capture in semiconductors
aqreed/solarpy
Solar radiation model for flight dynamics. Based on Duffie & Beckman "Solar energy thermal processes" (1974)
qpv-research-group/rayflare
Open-source, integrated optical modelling of complex stacks
bg4uvr/esp8266mws
Esp8266 Mini Weather Station
sidihamady/Photovoltaic-Model
Photovoltaic-Model: calculates the current-voltage characteristic of a solar cell using the two-diode model, with a possibility to fit an experimental characteristic
sidihamady/Shockley-Queisser
Shockley-Queisser limit Calculator. The Shockley-Queisser limit is the maximum photovoltaic efficiency obtained for a solar cell with respect to the absorber bandgap
smhooten/TMatrixOpt
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.
greyltc/analysis-software
Python QT batch curve fitting GUI tool for solar cell IV data files
sidihamady/SLALOM
Open-Source, Portable and Easy-to-use Solar Cell Optimizer
gcunhase/GeneticAlgorithm-SolarCells
Single and Multi-layer Solar Cell Thickness Optimization With Genetic Algorithm (Energies 2020)
I-use-IT/solar-cell
Framework for the Simulation of Temperature Dependent Semiconductor Parameters in Silicon Solar Cells and their Respective Impact on the Current Density-Voltage Characteristic
kaklin/sq-limit
Jupyter notebook to calculate SQ limit
WMD-group/hot-carrier-cooling
Jupyter notebooks outlining theory and calculations for hot polaron cooling in halide perovskite solar cells
kanhua/pypvcell
An extensible solar cell modelling framework in python
kirill-menke/resnet-defective-solar-cells
Multi-label classification of defective solar cells with PyTorch using a pre-trained residual neural network
marcosdelcueto/MachineLearning_AcceptorDonor
Code allows the use of different machine learning methods to predict efficiency of organic photovoltaics using different descriptors
mdh266/PECS-1D
Photoelectrochemical Solar Cell Simulator in 1D
WMD-group/TrapLimitedConversion
Computing solar energy conversion limits using the Trap Limited Conversion (TLC) metric
nschopp/Optoelectronic-Processes-in-Organic-Solar-Cells-Under-Short-Circuit-Conditions
A Simple Approach for Unraveling Optoelectronic Processes in Organic Solar Cells under Short‐Circuit Conditions
thBoo39/hot-carrier-solar-cell-particle-energy-balance-solver
Solve detailed balance model of hot carrier solar cells.
Sha-Group/Modified-Diode-Model
The Modified Diode Model for Perovskite Solar Cells
shridattdudhat/LT3652-MPPT-Battery-Charger
Simple MPPT Module
mdh266/PECS
Photoelctrochemical Solar Cell Simulator
WMD-group/CZTS-model
Thermodynamic modelling of Cu2ZnSnS4 (CZTS) phase equilibria
WPT-Lab124/Modified-Diode-Model
The Modified Diode Model for Perovskite Photovoltaics
afafirmansyah/renewable-energy
Technique used to optimize the power output of a photovoltaic system
bisht-prachi/solarcell_degradation_electron_irradiation
A simple code to produce the degraded IV characteristics of GaAs solar cell under 1 MeV electron irradiation.
proffapt/spg
DIY project for first year course in IIT Kharagpur
qqqlab/rfm69-arduino
Arduino with RFM69 ISM radio running at 1.8V
ZooBeasts/Deprecated-project-moved-to-multiagents_Reinforcement_learning_solarcells_optimization
Leading collaboration project within University of St Andrews, UK. Solar cell structures optical properties optimization
gmkoeb/dark-fitter
Fits JxV curves obtained from solar cells operating in the dark and calculates important parameters
gmkoeb/light-fitter
Fits JxV curves obtained from solar cells under illumination and calculates important parameters
jesuscapistran/pv_parameters
This Jupyter Notebook extract the basic PV parameters from the J-V curve of µSMU: Voc, Jsc, FF, Rs, Rp